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1. Activation analysis
Abrams, I. A., Pelekis, L. L.: Gammaactivation analysis using gamma-rays with lower energy than the threshld of the photonuclear reaction. --Sb Metody i primenenie neitronaktivats. analiza Zinatne, Riga, 1969, 71–9 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 57.
Ainbinder, N. G., Veveris, O. E., Pelekis, Z. E., Pelekis, L. L., Taure I. Y.: Determination of platinum in glass fibers by neutron activation analysis.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 155–56 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 148.
Allen, R. O., Denechaud, E. B., Haskin, L. A. (University of Wisconsin, Madison, Wis): Multielement activation analysis of lunar materials.157th National American Chemical Society Meeting, Minneapolis, Minn,Apr. 13–18, 1969.
Anders, E. (Enrico Fermi Inst., Univ. of Chicago, Ill.): Neutron activation analysis of lunar samples.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Anon. (Hoesch Aktiengesellschaft, Dort-mund, Germany): Improvements in or relating to non-destructive testing of castings.Brit. Patent 1 131 218, Oct. 23, 1968, Prior, Germany, Mar. 29, 1965. see alsoNucl. Sci. Abstr. 23 (1969) No. 9668.
Ádám, L. (Research Institute for Mining’ Budapest): Indirect water tracing, measuring the inactive reagent by neutron activation.Symp. on Radioactive Isotopes in the Scientific Research, Nov. 12–13, 1969, Budapest. MTA Izotóp Intézete, Budapest, 1969, RIT-1 (Summary) (in Hungarian).
Balsenc, L., Beeler, R., Haerdi, W., Monnier, D. (Genève, Univ., Labor. de Chimie Analytique; Laboratoires de Physique Nucléaire Expérimentale): Secondary reactions caused by the hafnium neutron activation analysis: decay of178Lu.Chimia (Aarau) 23 (1969) 154–5 (in French), see alsoRef. Zh. Khim. 19 (1969) No. B 658.
Barrandon, J. N., Seltz R. (C.N.R.S. Centre d’Etudes de Chimie Métallurgique, Vitry-sur-Seine, Val-de-Marne; C. N. R.S., Centre de Recherches Nucléaires, Labor. des Basses Energies, Strasbourg, Bas-Rhin, France): Fluorine analysis on the surface of metal probes, using the reaction19F(p, α)16O.Compt. Rend. 268 (1969) 1852–5 (in French).
Barwinski, A., Górski, L., Janćysyn, E., Kveczynski, S., Loska, L., Ostachovice, E. (Poland): A system for automatic activation analysis using a fast neutron generator.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept 1–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 41–50 (in Russian).
Belov, A. F., Egiazarov, B. G., Zyubko, V. A., Karpurhin, O. A. (USSR): Elaboration of control and measuring equipments for versatile neutron activation analytical laboratories.Sb. Nauchn. Tekhn. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 114–25 (in Russian).
Berry, L. (Centre d’Etudes Nucléaires, Commissariat à l’Energie Atomique, Saclay, France): Analyse par activation de l’oxygène et de l’azote dans les solides. Application à l’étude des réactions de surface. CEA-Bib-116, 1968, 25 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 26194.
Berzin, A. K., Leipunskaya, D. I., Savosin, S. I., Shimelevich, Y. S., Spiridonov, V. P. (USSR): Elaboration of the technical requirements of transportable laboratories for the analysis of ores and minerals by neutron activation.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 1–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 196–213 (in Russian).
Beswick, C. K., Cameron, J.: Nuclear techniques and mineral resources.Report on the Agency Symposium held in Buenos Aires, Argentina, November 5–9, 1968 At. Energ. Rev. 7 (1969) 231–5.
Bochvar, A. A., Gruzin, P. L., Tomson, G. I., Babikova, U. F., Kurochkin, U. Y., Minaev, V. M., Petrov, U. I.: Determination of carbon in a uranium network sub-structure by activational autoradiography.At. Energ. (USSR) 27 (1969) 193–6 (in Russian).
Bogdanović, E., Veljković, S. R. (Acad. Med. Militaire; Univ. de Belgrade, Fac. Sci., Belgrade, Yugoslavia): Radiochemical analysis of zinc compound after irradiation in a reactor.Radiochim. Acta 11 (1969) 94–7 (in French).
Braun, T., Bujdosó, E., Miskei, M. (Hungary): Edge-punched card literature retrieval system for activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 136–44 (in Russian).
Brits, R. J. N., Peisach, M. (Southern Universities Nuclear Institute, Faure, South Africa): Isotopic determination of calcium-43 by proton activation.SUNI Annual Report for the year ending December 1968, 24–5.
Brunfelt, A. O., Steinnes, E. (Mineralogisk-Geologisk Museum, Univ. of Oslo; Inst. for Atomenergi, Isotope Labs., Kjeller, Norway): Instrumental activation analysis of silicate rocks with epithermal neutrons.Anal. Chim. Acta 48 (1969) 13–24.
Chevalier, D., Fourcy, A., Kofler, L. (Fac. Sci. Labor, de Physiol. Végétale, Saint-Martin-d’Hères, Isère; Centre d’Etudes Nucléaire de Grenoble, Labor. de Biol. Végétale, Grenoble-Gare, Isère): The manganese content of moss spores.Compt. Rend. Sér. D. 268 (1969) 1789–92 (in French).
Chruściel, E., Dabek, T., Korbel, K., Massalski, M. J., Studnicki, J. (Acad. of Mining and Metallurgy, Inst. of Nuclear Techniques, Krakow, Poland): A borehole neutron tube generator.Isotopenpraxis 5 (1969) 136–42.
Chruściel, E., Dombek, T., Korbel, K., Lomnicki, A., Massalski, M. E., Studnicki, J. (Poland). A sealed-tube neutron generator for well-logging.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 288–305 (in Russian).
Damburg, N. A., Pelekis, L. L., Riekstynya, D. V.: Determination of terbium in yttrium oxide of high purity by activation.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 143–6 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 78.
Davydov, M. G., Shcherbachenko, V. A.: Selectivity of gamma activation analysis.At. Energ. (USSR) 27 (1969) 205–8 (in Russian).
Debrun, J. L., Barrandon, J. N., Albert, P. (Centre d’Etudes de Chimie Métallurgique, Vitry-sur-Seine, France): Activation analysis using4He and3He ions. Determination of trace oxygen in high purity iron, nickel, and chromium. Studies on carbon determination.Bull. Soc. Chim. France (1969) 1011–6, see alsoNucl. Sci. Abstr. 23 (1969) No. 24127.
Debrun, J. L., Albert, P. (CNRS, Vigrysur-Seine, France): Irradiation of some natural elements by 35-MeV photons. Application in activation analysis.Bull. Soc. Chim. France (1969) 1020–3, see alsoNucl. Sci. Abstr. 23 (1969) No. 24126.
Delporte, R. (Univ. Liège, Belgium): Germanium detectors compensated by lithium ion migration. Part 2. Application to elemental chemical analysis.Ind. Chim. Belge 33 (1968) 440–8 (in French), see alsoNucl. Sci. Abstr. 23 (1969) No. 19942
Deschamps, N., Fedoroff, M. (Laboratoire d’Analyse par Activation du C.E.C.M., Vitry-sur-Seine; Centre d’Etudes de Chimie Métallurgique, Vitry-sur-Seine France): Utilisation des radioisotopes de courtes périodes pour le dosage d’éléments traces dans les métaux de haute pureté par activation neutronique.Z. Anal. Chem. 247 (1969) 221–4.
Doctor, Z. K., Haldar, B. C.: Neutron activation analysis of molybdenum in copper ores.J. Indian Chem. Soc. 46 (1969) 295–300, see alsoRef. Zh. Khim., 23 (1969) No. G 119.
Dolginov, L. M., Lyutkau, V. G., Marunina, N. I., Nashelskii, A. Y., Suchov, G. V., Troneva, N. V. (Rare Metal Industry, State Sci. Res. and Projection Inst.): Study of the composition of thin layers of semi-conductors.Zavodsk. Lab. 35 (1969) 463–5 (in Russian).
Downs, W. E., Davis, M. W. (Atomic Energy of Canada Ltd., Ottawa, Canada): Characteristics of an ‘on-stream’ analysis system using a multikilocurie124Sb−Be neutron source.Nucl. Appl. Technol. 7 (1969) 466–71.
Dubinskaya, N. A., Pelekis, L. L.: The use of monitors in neutron activation analysis.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 35–48 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 54.
Dubinskaya, N. A., Yanson, Y. V.: A computer program for activation analysis.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 49–62 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 55.
Dubinskaya, N. A., Pelekis, L. L., Tsirkunova, I. E.: Instrumental neutron activation analysis of manganese in biological materials.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 147–53 (in Russian).
Ehmann, W. D., Morgan, J. W. (Univ. of Kentucky, Lexington, Ky.): Projected nondestructive neutron activation techniques for the analysis of returned lunar samples.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Elek, A., Csőke, T., Szabó, E., Simonits, A. (Hungary): Organization of activation analytical laboratories and their arrangement at the Central Research Institute for Physics.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 214–37 (in Russian).
Erdey, L. (Budapest Technical Univ., Budapest, Hungary): Various methods for the determination of trace elements.Kém. Közlemén. 30 (1968) 372–8 (in Hungarian), see alsoNucl. Sci. Abstr. 23 (1969) No. 26202.
Evdokimov, Y. B., Ivanov, A. S., Komorin, L. V., Solnyshkov, A. I., Surovtsev, Y. P., Fedotov, M. T., Tsepakin, S. T. (USSR): Industrial neutron generators for activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 149–58 (in Russian).
Evteev, M. G., Ivanov, I. N., Shtan, A. S. (USSR): The present status of the activation analysis and modern trends of the development of its technical equipment.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom, Moskva, 1969, 8–17 (in Russian).
Filby, R. H., Davis, A. I., Wainscott, G. G., Haller, W. A., Cassatt, W. A.(Nuclear Radiation Center, Pullman, Washington; Joint Center for Graduate Study, Richland, Washington): Gammaray energy tables for neutron activation analysis.Washington State University, WSUNRC-97, Oct. 1969, 82+74+74 p.
Filby, R. H., Yakeley, W. L.(Washington State University, Pullman, Washington 99163, USA): Determination of selenium in eye-lenses by neutron activation analysis using77mSeRadiochem. Radioanal. Letters 2 (1969) No. 5 307–11.
Fritz, J. S., Peters, M. A.(Inst. for Atomic Res. and Dept. of Chem., Iowa State Univ., Ames Lab., Iowa): Alkaline earth separations on microcrystalline cellulose columns.Talanta 16 (1969) 575–80, see alsoNucl. Sci. Abstr., 23 (1969) No. 28957.
Gambaryan, R. G., Rogov, E. V., Shtan, A. S.(USSR) Determination of elemental composition of materials using resonance neutrons.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 84–96 (in Russian).
Ganev, U. K., Gambaryan, R. G., Gurkov, U. A., Efanov, A. I., Ivanov, I. N., Konstantinov, L. V., Lobanov, S. V., Nikolaev, V. A., Talanov, B. P., Ustinov, A. S., Stan, A. S.(USSR): Neutron multiplier Co-I for activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept, 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 145–8 (in Russian).
Garrec, J. P., Fer, A., Fourcy, A.(Centre. d’Etudes Nucléaires de Grenoble, Labor. de Radiobiologie, Grenoble-Gare, Isère) A method for the rapid analysis of Fe, Al and Si in soil science: 14 MeV neutron activation analysis without radiochemical procedures.Compt. Rend. Ser. D 268 (1969) 3021–4 (in French).
Genaeva, L. I., Kashkarov, L. L., Lavrukhina, A. K.: The determination of uranium in stony meteorites by registration of fission fragment tracks.Meteoritika No. 28 (1968) 102–6 (in Russian), see alsoNucl. Sci. Abstr. 23 (1969) No. 31321.
Gilbert, E. N., Pronin, V. A.: Determination of microimpurities in selenium by neutron activation analysis.Izv. Sibirsk. Otd. Akad. Nauk SSSR. Ser. Khim. Nauk 2 (1969) No. 4, 168–70 (in Russian), see alsoRef. Zh. Khim. 19 (1969) No. G 160.
Girardi, F.(CCR EURATOM, Ispra, Varese, Italy): The 3rd International Congress ‘Modern Trends in Activation Analysis’.Energia Nucl. (Milan) 16 (1969) 328–35 (in Italian).
Girardi, F., Camera, V., Sabbioni, E.(EURATOM Joint Nuclear Res. Centre, Ispra Establishment, Varese, Italy): Cerenkov counting of aqueous solutions in activation analysis.Radiochem. Radioanal. Letters 2 (1969) No. 4, 195–202.
Gottschalk, J.: Entwicklung einer inaktiven Markierungsmethode unter Benutzung der Reaktion10B(n, α)7Li.Diss. Technische Hochschule Hannover, 1967, 63 p.
Gračev, E. M., Kandaurov, V. A., Mikhailov, V. N., Moiseev, S. I., Nikolaenko, O. O., Talanov, B. P., Stan, A. S.(All-Union Scientific Res. Inst. of Radiation Technique, Moscow, USSR): Device for rapid O analysis in metals.Izotopy v SSSR No. 11 (1968) 27–30 (in Russian).
Graudynya, L. Y., Kalnyn, Y. R. K., Pelekis, L. L.: The total efficiency of the registration of gamma-rays with germanium semi-conductor detectors.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 89–134 (in Russian).
Guinn, V. P.(Gulf General Atomic Inc., San Diego, Calif.): Standard needs for activation analysis.156th National Meeting of the American Chemical Society, Atlantic City, N. J., Sept. 8–13, 1968. AED-Conf. 68-214-045, 10 p. CONF-680918.
Herr, W., Herpers, U.(Inst. für Kernchemie, Univ. Köln, Germany): Determination of spallogenic53Mn and a group of nobler trace elements in meteorites by neutron activation.157th National Meeting of the American Chemical Society, Minneapolis, Minn., Apr. 13–18, 1969.
Hoppe-Speer, I., Peisach, M.(Southern Universities Nuclear Institute, Faure, South Africa): Surface analysis of oxygen using prompt proton spectrometry.SUNI Annual Report for the year ending December 1968. 22–3.
Imamura, M., Matsuda, H., Horie, K., Honda, M.(Univ. of Tokyo, Inst. for Solid State Physics, Minatoku, Tokyo, Japan): Application of neutron activation method for53Mn in meteoritic iron.Earth Planet. Sci. Lett. 6 (1969) 165–72.
Ishi, D., Jinno, K.: Activation analysis of phosphorus with 14 MeV neutrons using barium as internal standard.Kogyo Kagaku Zasshi 72 (1969) 1994–8 (in Japanese).
Ivanov, I. N., Kandaurov, V. A., Shtan, A. S., Mamonov, E. I., Ivanets, V. N., Talanov, B. P.(USSR) A universal system of automatic activation analyses.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept, 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 253–72 (in Russian).
Janćysyn, J.(Poland): The influence of apparatuses to the precision and sensitivity in routine activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 126–35 (in Russian).
Johansen, O., Steinnes, E.(Institutt for Atomenergi, Isotope Laboratories, Kjeller, Norway): Determination of tin in geological material by neutron-activation analysis.Analyst 94 (1969) 976–8.
Jones, R. E., Price, H. J.(Kaman Corp., Colorado Springs, Colo.): Method and apparatus for automatic neutron activation analysis comprising simultaneous rotation of a known and an unknown sample.U.S. Patent 3 431 416 (1964–1969), see alsoNucl. Sci. Abstr. 23 (1969) No. 19644.
Juna, J., Konecný, K., Vobecký, M.(Czechoslovak Acad. Sci., Nuclear Res. Inst., Prague-Řež): Nuclear reaction method for the determination of boron.Collection Czech. Chem. Commun. 34 (1969) 1605–11.
Kalmár, F., Tar, J., Rabocki, J., Varga, L.(Hungary): Determination of oxygen in steels by neutron activation.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 181–95 (in Russian).
Karnaukhova, N. M., Karazhanova, G. M., Luknitskii, V. A., Maslov, I. I., Terenteva, Z. P.: Determination of the velocity of evaporation of molybdenum and zirconium carbide by neutron activation analysis.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga. 1969, 162–76 (in Russian).
Kartashev, E. R., Chulkin, V. L., Shtan, A. S.(USSR): Activation analysis of flowing solutions.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 97–107 (in Russian).
Kartashev, E. R., Shtan, A. S.(Vses. Nauchno-Issled. Inst. Radiats. Tekhn. Moscow, USSR): Neutron method for the determination of indium and cadmium in stream of solutions.Tr. Vses. Inst. Radioats. Tekhn. 3 (1969) 200–6 (in Russian), see alsoRef. Zh. Khim. 15 (1969) No. G 140.
Kartashev, E. R., Shtan, A. S.(Vses. Nauchno-Issled. Inst. Radiats. Tekhn. Moscow, USSR): Activation determination of indium, selenium, fluorine, and other elements in a stream of solutions.VNIIRT-2, 1968. 18 p. (in Russian), see alsoNucl. Sci. Abstr. 23 (1969) No. 26196.
Kashukeev, N. T.: Method for determination of microquantities of uranium in specimens with unknown chemical composition.Compt. Rend. Acad. Bulgare Sci. 21 (1968) 1041–4, see alsoNucl. Sci. Abstr. 23 (1969) No. 24108.
Kasparek, K.(Kernforschungsanlage Jülich, Germany): Application of activation analysis in biology and medicine.Atomkernenergie 14 (1969) 143–6 (in German), see alsoNucl. Sci. Abstr. 23 (1969) No. 24688.
Kasymov, A. K., Masagutov, V. S.: Determination of copper in minerals by photonuclear reaction.Izv. Akad. Nauk Uz. SSR. Ser. Fiz.-matem. Nauk No. 2 (1969) 77–8 (in Russian), see alsoRef. Zh. Khim. 19 (1969) No. G 124.
Khera, A. K., Steinnes, E.: Rapid determination of aluminium, manganese, and sodium in soils by neutron activation analysis.Agrochimica 13 (1969) 524–9.
Kim, C. K.(Bell Telephone Laboratories, Inc., Murray Hill, New Jersey 07974, USA): Oxygen content of gallium phosphide, silicon, and germanium by helium-3 activation.Radiochem. Radioanal. Letters 2 (1969) No. 2, 53–60.
Kiryanov, G. I.(USSR): Investigation of the parameters of portable impulse neutron generators.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva 1969, 25–40 (in Russian).
Kline, J. R., Foss, J. E., Brar, S. S.(Argonne National Lab., Ill.): Lanthanum and scandium distribution in three glacial soils of Western Wisconsin.Soil Sci. Soc. Am. Proc. 33 (1969) 287–91, see alsoNucl. Sci. Abstr. 23 (1969) No. 28749.
Kline, J. R., Brar, S. S.,(Argonne National Lab., Ill.): Instrumental analysis of neutron irradiated soils.Soil Sci. Soc. Am. Proc. 33 (1969) 234–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 28748.
Kodiri, S., Deev, Y. S.(Tadzhik State Univ., Stalinabad, USSR): Gamma-activation method for the determination of rhodium.Dokl. Akad. Nauk Tadzh. SSR. 11 (1968) No. 12, 19–21 (in Russian), see alsoRef. Zh. Khim. 19 (1969) No. G 100, andNucl. Sci. Abstr. 23 (1969) No. 21670.
Komarov, A. N., Skovorodkin, N. V.(Inst. of Geology and Geochronology of the Precambrian, Leningrad, USSR): Investigation of uranium content and distribution in ultra-basic and basic rocks by recording technique of induced uranium fission fragment tracks.Geokhimiya No. 2 (1969) 170–6 (in Russian), see alsoNucl. Sci. Abstr. 23 (1969) No. 15814.
Konečný, K., Vobecký, M., Juna, J.(Řež, Czech. Acad. Sci., Inst. of Nuclear Res.): Non-destructive determination of boron in metallic alloys by means of a nuclear reaction.Jaderná Energie 15 (1969) 128–30 (in Czech), see alsoNucl. Sci. Abstr. 23 (1969) No. 24124.
Kotelnikov, L. A., Kuznetsov, R. A.: Photoactivation analysis of Sb−Zr ion exchanger.Radiokhimiya 11 (1969) 256–8 (in Russian).
Kuznetsov, K. F., Kurochkin, S. S., Rogushin, I. I., Sokolov, A. D., Shuvalov, G. I.(USSR): Unification of measuring apparatuses and data processing of activation analysis laboratories.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza, Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 306–19 (in Russian).
Leushkina, G. V., Lobanov, E. M., Dutov, A. G., Matveeva, N. P.: Rapid determination of tungsten and hafnium in pure molybdenum.Zavodsk. Lab. 35 (1969) 715–7 (in Russian), see alsoRef. Zh. Khim. 23 (1969) No. G 138.
Leushkina, G. V., Lobanov, E. M., Dutov, A. G., Matveeva, N. P.: Sensitivity of activation analysis.At. Energ. (USSR) 26 (1969) 381–3 (in Russian).
Linstedt, K. D., Kruger, P.(Univ. of Colorado, Boulder, Colo.; Stanford Univ., Dep. of Civil Engng. Stanford, Calif.): Vanadium concentration in Colorado River Basin waters.J. A. Water Works Assoc., 61 (1969) 85–8.
Lobanov, E. M., Mamadzhanov, F. I., Babaev, A. (Physical-Technical Inst., Dushanbe, USSR): Neutron activation analysis of impurities in quartz crystals.Dokl. Akad. Nauk Tadzh. SSR 11 (1968) No. 5, 54–8 (in Russian), see alsoNucl. Sci. Abstr. 23 (1969) No. 15823.
Loos, G., Hörner, W., Muschter, C., Rommel, H., Niese, S., Tinteman, S., Fleming, S. (German Democratic Republic): Apparatus for non-destructive activation analysis using reactor neutrons.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 18–24 (in Russian).
Loveland, W., Schmitt, R. A., Fisher, D. E. (Dept. of Chem., Oregon State Univ., Corvallis, Ore., Cornell Univ., Ithaka, N. Y.): Aluminium abundances in stonymeteorites.Geochim. Cosmochim. Acta 33 (1969) 375–85.
Lyon, W. S. (Oak Ridge Natl. Lab., Oak Ridge, Tenn.): Activation analysis using high resolution detectors.22nd Annual Summer Symposium on Analytical Chemistry, Athens, Georgia, June 11–13, 1969.
Mac Arthur, I. R., Morris, D. F. C.: Radiochemical methods for the determination of trace elements in nickel alloys. Part 2. Determination of chlorine, phosphorus and sulphur.Metallurgia 80 (1969) NO. 477, 37–42, see alsoRef. Zh. Khim. 24 (1969) No. G 139.
Mannhardt, E., Kerényi, L. (Hungary): Possibility of the application of a new 1024-channel analyser in activation analysis.Sb. Nauch. Tekhn. Konf. Apparaure Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 282–7 (in Russian).
Matthews, A. D., Riley, J. P. (Dept. of Oceanography, Univ. of Liverpool, England): The determination of thallium in silicate rocks, marine sediments and sea water.Anal. Chim. Acta 48 (1969) 25–34.
Mednis, I. V.: Calculation of induced activity by interrupted irradiation.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 21–33 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 56.
Meyers, P.: Some applications of non-destructive activation analysis.Intern. Conf. on Modern Trends in Activation Analysis, Gaithersburg, Md., Oct. 7–11, 1968. AED-Conf. 68-240-008.Diss. Univ. Amsterdam, Netherlands, 1968, 83 p.
Michelsen, O. B., Steinnes, E. (Institutt for Atomenergi, Kjeller, Norway): Determination of europium in minerals and rocks by neutron activation and gamma-gamma-coincidence spectrometry.Talanta 16 (1969) 1436–9.
Mikhailov, M. K., Mazhkarov, S. A., Mikhailov, M. J. (Bulgaria): Methods for the determination of microquantity of mercury in amalgam and biological systems.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 273–81 (in Russian).
Millard, H., Aruscavage, P. J. (U. S. G. S., Denver, Col.): Neutron activation analysis: the value of the technique to geochemical studies.20th Mid-America Symp. on Spectroscopy, Chicago, Ill., May 12–15, 1969.
Miyagawa, K., Shimura, K. (Fuji Iron and Steel Co., Ltd., Japan): Application of a fast neutron activation method to the control of oxygen content in iron and steel-making process.Tetsu To Hagane 55 (1969) 209–15 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 19682.
Morrison, G. H., Gerard, J. T., Travesi, A., Currie, R. L., Peterson, S. F., Potter, N. M. (Chem. Dept. Cornell Univ., Ithaca, N. Y.): Multielement neutron activation analysis of rock using chemical group separation and high resolution gamma spectrometry.Anal. Chem. 41 (1969) 1633–7.
Moshkin, G. N., Tyufyakov, N. D., Stan, A. S., Yaskevich, V. S., Baikalov, N. D.:252Cf neutron source.At. Energ. (USSR) 26 (1969) 384–5 (in Russian).
Nadkarni, R. A., Haldar, B. C.: Determination of manganese in steels by neutron activation analysis.Indian J. Appl. Chem. 31 (1968) No. 5-6, 175–80, see alsoRef. Zh. Khim. 23 (1969) No. G 132.
Nadkarni, R. A., Ehmann, W. D. (Dep. of Chem., Univ. of Kentucky, Lexington, Ky. 40506, U.S.A.): Determination of trace elements in the reference cigarette tobacco by neutron activation analysis.Radiochem. Radioanal Letters 2 (1969) No. 3, 161–8.
Nagai, T., Fujii, I., Muto, H., Inouye, T. (National Inst of Radiological Sci., Chiba, Japan; Toshiba Central Res. Labor., Kawasaki, Japan): Total-body nitrogen and protein determined by in vivo fast-neutron activation analysis.J. Nucl. Med. 10 (1969) 192–6
Nakamura, H., Yamabayashi, H. (Japan Atomic Energy Research Inst., Tokyo, Japan): Radiochemical impurities in the processed56Mn by (n, γ) reaction.Nippon Genshiryoku Gakkaishi 11 (1969) 134–7 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 19686.
Nakanishi, T., Sakanoue, M. (Radiochem. Laboratory, Dep. of Chem., Fac. Sci., Kanazawa University, Kanazawa, Japan): Measurement of 14 MeV neutron flux density by fission track method.Radiochem. Radioanal. Letters 2 (1969) No. 5, 313–9.
Nargolwalla, S. S., LaFleur, P. D. (NBS, Washington, D.C.): Characterization of standard reference materials for industry and research by neutron generator activation analysis.Topical Meeting of the American Nuclear Society, San Juan, P. R., May 4–6, 1969. AED-Conf. 69-121-001, 6 p.
Neeb, K. H., Franke, R., Neidl, H. (Kerntechnische Laboratorien der Siemens AG, Erlangen, Germany): Verwendung eines Ge(Li)-Detektors in der radiochemischen Analyse. Teil 1. Aktivierungsanalytische Bestimmung von ppm-Gehalten Tellur in Selen.Z. Anal. Chem. 247 (1969) 225–8 (in German).
Neeb, K. H., Martin, J. (Kerntechnische Laboratorien der Siemens AG, Erlangen, Germany): Über die aktivierungsanalytische Bestimmung von Dotierungsstoffen und Spurenverunreinigungen in Selen.Frühjahrstagung des Halbleiterausschusses der Deutschen Physikalischen Gesellschaft, Berlin, March 21, 1968. Preprint, 9 p., see alsoZ. Anal. Chem. 247 (1969) 27–31.
Neeb, K. H., Martin, J., Franke, R. (Kerntechnische Laboratorien der Siemens A. G., Erlangen, Germany): Aktivierungs-analytische Bestimmung kleiner Gehalte an Tellur, Chlor, Thallium und Nickel in Selen.Z. Anal. Chem. 247 (1969) 27–31.
Neirinckx, R., Adams, F., Hoste, J. (Inst. for Nuclear Sci., Ghent Univ., Ghent, Belgium): Determination of impurities in titanium and titanium dioxide by neutron activation analysis. Part 4. Determination of trace impurities in titanium dioxide single crystals.Anal. Chim. Acta 48 (1969) 1–11.
Nikolaenko, O. K., Shtan, A. A. (USSR): Method and apparatus for express activation analysis by fast neutrons.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 159–69 (in Russian).
Nikolaenko, O. K., Shtan, A. S.: Determination of oxygen in metals using a sealed tube neutron generator.Tr. Vses. Inst. Radiats. Tekhn. 3 (1969) 193–200 (in Russian), see alsoRef. Zh. Khim. 15 (1969) No. G 124.
Obrusnik I.: Determination of indium and tin by activation analysis using replacement substoichiometry.Talanta 16 (1969) 563–6.
Oda, T.: Determination of rare-earth elements in hot spring water by radioactivation method.Radioisotopes (Tokyo) 18 (1969) 39–43 (in Japanese), see alsoRef. Zh. Khim. 15 (1969) No. G 159.
Oka, Y., Kato, T., Sato, N. (Tohoku Univ., Fac. Sci., Dep. of Chem., Katahira-cho, Sendai, Japan): The yields of photonuclear reactions in titanium and vanadium with bremsstrahlung up to 60 MeV.Bull. Chem. Soc. Japan 42 (1969) 387–93.
Oka, Y., Kato, T., Yamedara, A. (Tohoku Univ., Fac. Sci., Dep. of Chem., Katahiracho, Sendai, Japan): The yield of photonuclear reactions leading to the production of7Be with bremsstrahlung up to 60 MeV.Bull. Chem. Soc. Japan 42 (1969) 981–4.
Olin, J. S., Sayre, E. V. (Brookhaven National Lab., Upton, N. Y.): Compositional categories of some English and American pottery of the American Colonial period.Meeting of the American Chemical Society, Atlantic City, N. J., Sept. 9–11, 1968. BNL-13134, 1968. 45 p., CONF-68091805, see alsoNucl. Sci. Abstr. 23 (1969) No. 21663.
Olivier, C., Peisach, M. (Southern Universities Nuclear Institute, Faure, South Africa): The determination of chromium, nickel and copper in surfaces by prompt proton spectrometry.Intern. Conf. on Modern Trends in Activation Analysis. Natl. Bureau of Standards, Gaithersburg, Md. Oct. 7–11, 1968. Preprints 158-65 p.SUNI Annual Report for the year ending December 1968, n. d., 59 p.
Oosterom, M. G., Das, H. A.: Neutron activation analysis of Vourinos and Othrys ultramafic rocks and serpentinites: with special reference to alkali contents.Proc. Konikl. Nederl. Akad. Wet. B 72 (1969) No. 3, 175–91, see alsoRef. Zh. Khim. 23 (1969) No. G 116.
Orlandini, K. A. (Argonne National Labor., Chem. Div., Argonne, Illinois): Cation exchange separation of scandium from rare-earths in oxalic acid media.Inorg. Nucl. Chem. Lett. 5 (1969) No. 4, 325–31.
Parker, J. L., Holm, D. M. (LASL, Univ. of Calif., Los Alamos, New Mex.): Measurement of carbon gradient in stainless steel by He-3 activation and autoradiography.2nd Intern. Symp. on Nucleonics in Aerospace, Columbus, Ohio, July 12–14, 1967. AED-Conf. 67-182-025, 9 p. LA-4008, Apr. 1968, 9 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 9296.
Pelekis, Z. E., Pelekis, L. L., Taure, I. Y.: Determination of impurities of iron crystals by neutron activation analysis using long-lived isotopes.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 135–42 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 144.
Pelekis, L. L., Freimanis, M. E.: Application of a semi-conductor gamma-spectrometer in activation analysis.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 81–8 (in Russian).
Pelekis, Z. E., Pelekis, L. L.: Selectivity of the neutron activation analysis using reactors.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 13–20 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 53.
Pelekis, L. L.: Relative and absolute methods of neutron activation analysis.Sb. Metody i primenenie neitronaktivats. analiza.Zinatne, Riga, 1969, 5–12 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 52.
Pelekis, L. L., Dubinskaya, N. A., Mednis, I. V., Pelekis, Z. E. (Eds), (Inst. Fiz. Akad. Nauk Latv. SSR): Methods and application of neutron activation analysis.Zinatne, Riga, 1968, 178 (in Russian), see alsoRef. Zh. Khim. 15 (1969) No. G 45.
Perdijon, J.: Automatic activation analysis in the mining industry. Application to iron ores.Rev. Ind. Minerale 50 (1968) 205–10 (in French), see alsoNucl. Sci. Abstr. 23 (1969) No. 11452.
Perezhogin, G. A. Sidorova, L. P.: Radioactivation determination of phosphorus using substoichiometric separation.Zh. Analit. Khim. 24 (1969) 570–4 (in Russian).
Pierce, T. B., Haines, K. (Analytical Sciences Div., A. E. R. E., Harwell, Berks. England): The determination of silicon in intact steel samples with a low output neutron generator.Analyst 94 (1969) 886–7.
Pillay, K. K. S., Thomas, C. C., Kaminski, J. W. (Western New York Nuclear Res. Center, Inc., Buffalo, N. Y.): Neutron activation analysis of the selenium content of fossil fuels.Nucl. Appl. Technol. 7 (1969) 478–83.
Plaksin, I. N., Kuzmichev, A. P., Mirzaakhmedov, M. K., Starchik, L. I.: Neutron activation analysis of manganese in ores and in their products; factor influencing the accuracy of the analysis.Nauchn. Soobshch. Inst. Gorn. Dela im A. A. Skochinskogo 47 (1969) 7–14 (in Russian), see alsoRef. Zh. Khim. 24 (1969) No. G 129.
Plaksin, I. N., Orifhkodzhaev, U., Starchik, L. I., Tustanovskii, V. T.: Determination of zirconium and cerium in minerals by activation method with fast neutrons.Nauchn. Soobshch. Inst. Gorn. Dela im. A. A. Skochinskogo 47 (1969) 15–7 (in Russian), see alsoRef. Zh. Khim. 24 (1969) No. G 128.
Potashev, P. I., Gavrilov, I. P. Application of neutron activation analysis in nonferrous metallurgy of Ural.Tr. Uralskogo N-i i Proektn. Inst. Medn. Prom-sti, 11 (1969) 327–33 (in Russian), see alsoRef. Zh. Khim. 15 (1969) No. G 47.
Prouza, Z., Rakovič, M. (Karlova Univ., Katedra Lékárške Fysiky a Nuklearni Med., Prague, Czechoslovakia). Resonance neutrons in activations analysis.Chem. Listy 63 (1969) 257–72 (in Czech), see alsoNucl. Sci. Abstr. 23 (1969), No. 31309.
Pulkrab, A. (Czechoslovakia): The development of activation analysis in Czechoslovakia.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 51–2 (in Russian).
Rakovič, M. (Praha, Fak. Všeobecnéko lékařstvi KV, Katedra Lékařské Fysiky a Nuklearni Med., Praha): New uses of activation analysis in biochemistry.Chem. Listy, 63 (1969) 679–91 (in Czech).
Rakovič, M. (Charles Univ., Medical Fac., Dep. of Medical Physics and Nuclear Med., Prague, ČSR): Study of precipitation in neutron activation analysis. Part 4. Separation of arsenic(V) suphide or silver arsenate in determination of arsenic in biological material.Chem. Zvesti 23 (1969) 147–9 (in Slovak), see alsoNucl. Sci. Abstr. 23 (1969) No. 26197.
Razumova, G. N., Shuba, I. D.: Determination of rhenium in germanium by a neutron activation method.Radiokhimiya 11 (1969) 354–6 (in Russian).
Reed, G. W., Jovanovic, S. (Chem. Div., Agronne Natl. Lab., Argonne, Illinois): Simultaneous determination of halogens by activation analysis.157th National American Chemical Society Meeting, Mineapolis, Minn., Apr. 13–18, 1969.
Reed, R. E. (Oak Ridge National Lab., Tenn.): Inhomogeneous distribution of tantalum and tungsten in zone-refined niobium. ORNL-4334, Feb. 1969, 3–9.Radiation Metallurgy Section, Solid State Division Progress Report for Period ending July 1968, see alsoNucl. Sci. Abstr. 23 (1969) Nos 20479 and 20518.
Růzička, J., Starý, J.: Substoichiometry in radiochemical analysis.Williams, M. (ed.)Pergamon, Oxford, 1968, VII+ 151 p.
Sankar Das, M., Kim Won Il, Lee Chul (Analytical Div., Bhabha Atomic Res. Centre, Trombay, Bombay, India; Chem. Div., Atomic Energy Res. Inst., Seoul, Korea): Iron wire containing managese as flux monitors in activation analysis using short-lived radionuclides.Intern.J. Appl. Radiation Isotopes 20 (1969) 746–7.
Scadden, E. M. (Naval Radiological Defense Labor., San Francisco, Calif.): Rhenium: its concentration in Pacific Ocean surface waters.Geochim. Cosmochim. Acta 33 (1969) 633–7.
Scherf, E., Várhalmi, L. (Hungary): Laboratory systems for activation analysis using neutron generators.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 108–13 (in Russian).
Schmidt, G. (Inst. für Radiochemie, Gesellschaft für Kernforschung, Karlsruhe): Bestimmung einiger Spurenelemente im Rheinwasser duch Neutronenaktivierungsanalyse. KFK-863, 1968. 70p. (in German).
Schmitt, R. A., Loveland, W., Linn, T. A. (Oregon State Univ., Corvallis, Ore.): Instrumental and radiochemical activation analysis for 32 elements in lunar samples.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Simonits, A., Bogáncs, J., Quittner, P., Szabó, E. (Hungary): Application of semiconductor detectors in non-destructive activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept, 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 238–52 (in Russian).
Sterliński, S. (Institute of Nuclear Research, Department of Analytical Chemistry, Warsaw, Poland): The effect of shift of total absorption peaks on the accuracy of determination in non-destructive activation analysis.Acta Phys. Polon. 35 (1969) 11–8.
Šuba, I. D., Razumova, G. N., Vasilev, I. Y.: Separation of macro components after neutron activation analysis of highpurity germinium.Radiokhimiya 10 (1968) 501–3 (in Russian).
Šuba, I. D., Razumova, G. N., Bocarova, N. N.: Determination of indium by neutron activation analysis of germanium.Radiokhimiya 10 (1968) 506–7 (in Russian).
Tatár, J.: Automatic determination of alumina and silica in bauxite samples by neutron activation.Bányászat 101 (1968) 287–91 (in Hungarian), see alsoNucl. Sci. Abstr. 23 (1969) No. 26203.
Tatár, J., Siklós, A. (Hungary): Application of laboratory neutron generators in pulse operation.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 320–5 (in Russian).
Tatár, K., Siklós, A. (Hungary): Automatic apparatus for the activation analysis of geological samples using an isotope neutron source.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 53–66 (in Russian).
Thompson, B. A., LaFleur, P. D. (Analytical Chemistry Div., National Bureau of Standards, Washington, D.C.): Activation analysis for molybdenum in samples contaning large amounts of tungsten.Anal. Chem. 41 (1969) 1888–9.
Tomov, T., Ruskov, T., Lefterov, D. (Bulgaria): Determination of ruthenium in catalysts by activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 170–1 (in Russian).
Torchev, T.: Some questions of the present status and trends of the neutron activation analysis.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 3–7 (in Russian).
Tölgyessy, J., Lukác, P. (Slovak Technical Univ., Dep. of Radiochem. and Radiation Chem.: Dep. of Inorg. Technol., Bratislava, ČSR): Activation analysis in archeology.Chem. Listy 63 (1969) 385–94.
Turkstra, J., Behrens, G. B., Wet, W. J. de: The determination of lanthanum, samarium, europium and thorium impurities in nuclear-grade uranium products.J. S. Afric. Chem. Inst. 22 (1969) No. 2, 111–20, see alsoRef. Zh. Khim. 24 (1969) No. G 144.
Tustanovskii, V. T., Orifchodzhaev, U.: Analysis of selenium by fast neutron activation.At. Energ. (USSR) 26 (1969) 383–4 (in Russian).
Veres, Á. (Isotope Institute of the Hung. Acad. Sci., Budapest): Nuclear investigations by gamma sources.Izotópkémiai Kutatások, Magy. Tud. Akad. Izotóp Intézete, Budapest, 1969, 293–314, (in Hungarian).
Veveris, O. E., Bankovskii, Y. A., Pelekis, L. L., Ainbinder, N. G., Shekhmeister, L. A.: The use of 8-mercaptoquinoline for the separation of trace elements.Sb. Metody i primenenie neitronaktivats. analiza.Zinaine.Riga, 1969, 63–70 (in Russian), see alsoRef. Zh. Khim. 16 (1969) No. G 15.
Vitozhents, G. C., Kozyr, A. I., Kuznetsov, K. F., Martynov, Y. T., Mysev, I. P., Rogushin, I. I., Sulin, V. V., Suslov, V. G., Shornikov, S. I. (USSR): Special problem of the building of a complex apparatus for the determination of multielemental composition of mineral raw materials by gamma-activation.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest.Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 67–83 (in Russian).
Vorsatz, B., Szabó, E., Kelen, É. Vas, S. (Hungary): Determination of oxygen in various materials using a neutron generator.Sb. Nauchn. Tekhn. Konf. Apparature Aktivats. Analiza.Budapest, Sept. 10–13, 1968.Sovet Ekon. Vzaipom.Moskva, 1969, 172–80 (in Russian).
Wilkniss, P. E. (Naval Res. Lab., Washington, D. C.): Use of a 60-MeV Linac for fast and variable-energy neutron activation analysis.Anal. Chem. 41 (1969) 421–3.
Wyttenbach, A. (Eidg. Institut für Reaktorforschung, Würenlingen, Switzerland): Rapid instrumental nuclear activation analysis of rocks, cements and meteorites.Helv. Chim. Acta 52 (1969) 2458–65.
Zverev, B. P.: Activation analysis of pure materials.Fan, Tashkent, 1968. 96 p. (in Russian), see alsoNucl. Sci. Abstr. 23 (1969) No. 26206.
Yakubovich, A. L., Zaitsev, E. I., Przhiyaglovskii, S. M.: Nuclear physical methods for the analysis of minerals.Atomizdat, Moskva, 1969, 415 p. (in Russian), see alsoRef. Zh. Khim. 17 (1969) No. G 123.
Analysis by nuclear absorption and scattering
Burkhalter, P. G.: Detection limit for silver by energy-dispersion X-ray analysis using radioisotopes.Inter. J. Appl. Radiation Isotopes 20 (1969) 353–62.
Danilin, L. D., Zakasovskii, G. V., Komyak, I. N., Lobov, S. I., Pavlova-Verevkina, A. I., Plotnikov, R. I., Funin, V. N., Tsukerman, V. A.: Application of radioactive isotope55Fe in non-crystalline X-ray analysis.Sb. Apparatura i metodi rentgenovsk. analiza, Vol. 4, Leningrad, 1969, 137–44 (in Russian), see alsoRef. Zh. Khim. 23 (1969) No. B 714.
Ellis, W. K., Fookes, R. A., Gravitis, V. L., Watt, J. S. (Australian Atomic Energy Comm., Res. Establishment, Lucas Heights, N. S. W., Australia): Radioisotope X-ray techniques for on-stream analysis of slurries. Feasibility studies using solid samples of mineral products.Intern. J. Appl. Radiation Isotopes 20 (1969) 691–701.
Gardner, R. P. (North Carolina State Univ., Raleigh, N. C.): Elimination of measurement interferences from surface-type nuclear soil density and moisture gauges.Topical Meeting of the American Nuclear Society, San Juan, P. R., May 4–6, 1969. AED-Conf. 69-121-004, 4 p.
Goryushina, V. G., Biryukova, E. Y. (State Scientific Res. and Design. Inst. of the Rare Metal Industry, Moscow): Concentration of microimpurities by extraction of the macrocomponent with alkylphosphoric acids.Zh. Analit. Khim. 24 (1969) 580–4 (in Russian).
Hołynska, B.: Grain size effect in low energy gamma and X-ray scattering.Spectrochim. Acta B 24 (1969) 85–93, see alsoRef. Zh. Khim. 15 (1969) No. G 42.
Itoh, T., Sekiguchi, A. (Central Laboratory, Japan Petroleum Development Co., Musa-shino-shi, Tokyo, Japan, Univ., of Tokyo, Faculty of Engineering, Tokyo, Japan): A new well logging method using the neutron tube.Oyo Butsuri 37 (1968) 322–33 (in Japanese), NSJ-Tr 146, 1969, 23 p.
Ivashchenko, G. A., Starchik, L. P., Tus tanovskii, V. T.: Use of the elastic scattering of fast neutrons to determine the moisture content of various materials.At. Energ. (USSR) 27 (1969) 233–4 (in Russian).
Jirkowsky, R.: Applicability of beta-radiation back-scattering in analytical chemistry.Freiberger Forschungsh. No. 130 B (1968) 50, see alsoNucl. Sci. Abstr. 23 (1969) No. 26188.
Jordan, P., Köberle, P.: Analytisch-chemische Bestimmung nichtradioaktiver Stoffe mit einem Flüssig-Szintillations-spektrometer durch Radiolumineszenz und Absorptionsphotometrie in Čerenkov-Licht.Experientia 25 (1969) 335–6, see alsoRef. Zh. Khim. 15 (1969) No. G 47.
Kreindlin, I. I., Matveev, L. V.: Statistical error of the concentration measurement of binary systems by radioactive absorption method.Tr. Vses. n.-i Inst.-ta Radiats. Tekhn. 3 (1969) 38–43 (in Russian), see alsoRef. Zh. Khim. 20 (1969) B 631.
Kwieciński, S.: Determination of the cadmium content of industrial material by the neutron method.Rudy i Metale Niezel. 14 (1969) No. 5, 275–80 (in Polish), see alsoRef. Zh. Khim. 23 (1969) No. G 126.
Maretheu, A..(Société Française de Cérmique, Paris, France): Measurement of the humidity of ceramic pastes.Bull. Soc. Franç. Céram. 78 (1968) 75–8 (in French), see alsoNucl. Sci. Abstr. 23 (1969) No. 17351.
Panidi, I. S., Paushkin, Y. M., Starchik, L. I., Yakovlev, I. V.: Determination of reflected beta-radiation for the determination of iodine, bromine, tin and tungsten.Neftepererabotka i neftekhimiya. Nauchno. tekhn. Sb. No. 12 (1969) 25–7 (in Russian), see alsoRef. Zh. Khim. 15 (1969) G 145.
Peisach, M.(Southern Universities Nuclear Institute, Faure, South Africa): The use of alpha-particle scattering for the qualitative analysis of elements in solution.2nd Convention of the South Africa Chemistry Institute, Durban, 1967. Convention Handbook, 199–207 p.,J. S. African Chem. Inst. 22 (1969) 50–6, see alsoRef. Zh. Khim. 20 (1969) No. G 81.
Plaksin, I. N., Kyzmichev, A. P. Starchik, L. P., Ivashchenko, G. A.(Ind. Gorn. Dela im. A. A. Skochinskogo): Neutron method for the determination of hydrogen in various materials.USSR Patent, Avt. Sb. SSSR, K1. 12i, 1/100; 421, 3/09 (C 01b, G 01n) No. 196042, Jan. 24, 1969 (in Russian), see alsoRef. Zh. Khim. 21 (1969) No. G 84.
Senftle, F. E., Philbin, P. W., Sarigianis, P.(U. S. Geological Survey, Dept. of the Interior, Washington, D. C.): Distribution of neutrons from a252Cf source in soil at depth and just below the air-ground interface.Nucl. Appl. Technol. 7 (1969) 576–83.
Sullins, J. S., Galler, W. S.(North Carolina State Board of Health, Raleigh, North Carolina): Measurement of film accumulation in a trickling filter by neutron moderation.J. Water Pollution Control Federation 40 (1968) R303–15, see alsoNucl. Sci. Abstr. 23 (1969) No. 4528.
Vasilev, S. S., Velyus, L. M., Korzh, P. D., Fomenko, V. T.: Isotopic analysis of indium and lutetium by thermal neutron adsorption.Izv. vyssh. uchebn. zavedenii, Fizika. No. 1 (1969) 127–9 (in Russian), see alsoRef. Zh. Khim. 20 (1969) No. B 630.
Waggoner, J. A., Knox, R. J.(Lawrence Radiation Laboratory, University of California, Livermore, Calif.): Elemental analysis using neutron inelastic scattering. UCRL-14654 (Rev. 1.) Dec. 1, 1968, 49 p.
3. Isotope dilution analysis
Garbauskas, G. K., Shamaev, V. I., Martynov, A. M.: Application of the method of radiometric compensation for the determination of cobalt in nickel preparates.Sb. Nauchno-tekhn. Konf. Moskva, Khim. Tekhnol. Inst. im D. I. Mendeleeva. Tezisy Dokladov, Moskva, 1969. p. 40 (in Russian), see alsoRef. Zh. Khim. 19 (1969) No. G 98.
Ishii, Y., MacIntyre, W. J.(Case Western Reserve University, Cleveland, Ohio): Analog simulation studies of isotopedilution process through circulatory system.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969, Abstr. of papers, 12 p.
Koch, L., Geerlings, M. W.(Kernforschungszentrum Karlsruhe, Germany): Determination of the concentration and isotopic abundances of americium and curium.Radiochim. Acta 11 (1969) 49–51 (in German), see alsoNucl. Sci. Abstr. 23 (1969) No. 21652.
Kunugi, A., Nagase, Y., Baba, S., Aizawa, Y.: Sulfur-35 labeled thiopental synthesis, isotope dilution analysis, and metabolism in rat.Yakugaku Zasshi 89 (1969) 1199–204 (in Japanese).
Matse, R. P.(Pacific Northwest Lab., Battelle-Northwest, Richland, Washington): Evaluation of isotopic dilution method used for destructive analysis of irradiated fuels. BNWL-CC-669 n. d., 14 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 19658.
McGagin, C. A., Eis, F. G.: Scintillation counting techniques in the isotope dilution analysis for sucrose.J. Am. Soc. Sugar Beet Technol. 15 (1968) 228–34.
Schnetzler, C. C., Philpotts, J. A., Thomas, H. H.(Goddard Space Flight Center, Greenbelt, Md.): A procedure for isotope dilution analysis of selected trace elements in the returned lunar sample.157th National American Chemical Society Meeting, Mineapolis, Minn., Apr. 13–18, 1969.
Szarvas, T., Márton, J., Horváth, L., Végh, G.(Isotope Institute of the Hung. Acad. Sci., Budapest): Problems of the purity measurements of organic compounds labelled with soft beta-emitting isotopes.Izotópkémiai Kutatások, Magy. Tud. Akad. Izotóp Intézete, Budapest, 1969, 315–38 (in Hungarian).
4. Instrumentation, analysis by activity measurements
Altenhein, F. K.(Hahn-Meitner-Inst. für Kernforschung, Abt. Strahlenphysik, Berlin): Investigation on difference gamma-spectrometry.Nucl. Instr. Methods 66 (1968) 37–44 (in German).
Barrall, R. C., Chakalian, V., Finston, R. A., Colombetti, L. G.(Stanford University, Stanford; Veterans Administration Hospital, Palo Alto, Calif.): Purity tests of68Ge−68Ga generators.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969, Abstr. of papers, p. 86.
Bartošek, J.(Inst. of Applied Geophysics, Brno, ČSR): The reliability appreciation of low activity measurements using the test of significance.Jaderná Energie 15 (1969) 167–8 (in Czech).
Berthollet, P.(Dept. des Prospections et Recherches Minières, Sect. de Géochimie, Centre d’Etudes Nucléaires de Fontenayaux-Roses, France): Analytical procedures used by the geochemistry section for uranium, radon, and radium. CEA-R-3557, June 1968, 58 p., see alsoNucl. Sci. Abstr. 22 (1968) No. 48812.
Bruno, C., Laubuge, R., Pierre, E., Samson, M.(Commissariat à l’Energie Atomique, France): A method of, and a device for, determining the isotope content of a uranium component.Brit. Patent 1, 154–825, June 11, 1969. Prior. France, Dec. 14, 1966, see alsoNucl. Sci. Abstr. 23 (1969) No. 33158.
Bull, A. T.: Liquid scintillation counting techniques for the radioassay of (14C)-melanin.J. Labelled Compounds 4 (1968) No. 2, 181–91, see alsoRef. Zh. Khim. 15 (1969) No. B 807.
Bunus, F., Matei, I.(Ministry of Mines, Technological Res. Dep., Bucharest): Contribution to the uranium content determinations in solutions based on238U daughter radioactivity measurements.Rev. Chim. (Bucharest) 14 (1969) 333–7.
Cauchetier, P.(CEN, Fontenay-aux-Roses, France): Determination of plutonium.Chim. Anal. (Paris) 50 (1968) 409–13, see alsoNucl. Sci. Abstr. 23 (1969) No. 24063.
Cheminée, J.(Fac. Sci. de Paris, Labor. de Géol. Dynamique, Paris): Distribution of U, Th and K in the lavas of Dankal, magmatological incidences.Compt. Rend. Sér. D 268 (1969) 1675–8 (in French).
Cook, B. G., Rogers, J. J. W.(Rice Univ., Houston, Tex.): Radiometry and crystallization history of the Buchanan granite massif, Texas, USA.Lithos 1 (1968) 398–407, see alsoNucl. Sci. Abstr. 23 (1969) No. 19673.
Cornelis, R.(Rijksuniversiteit Ghent, Belgium): Determination of fission products by a radiochemical procedure.Mededel. Vlaam. Chem. Ver. 30 (1968) 6–17 (in Flemish), see alsoNucl. Sci. Abstr. 23 (1969) No. 28740.
Degtyarev, Y. G., Protapopov, V. N.: Germanium gamma-spectrometer.Pribora Tekhn. Eksper. No. 2 (1969) 33–7 (in Russian).
Dreusicke, M., Niepel, J.(Bezirksinst. für Veterinärwesen, Potsdam): Routine measurement of low-level activities using end-window Geiger-Müller counters in the minimum distance by utilizing the betaray backscattering from lead.Isotopenpraxis 5 (1969) 134–6 (in German).
Goggins, J. F., Tanzer, J. M.(National Institutes of Health, National Inst. of Dental Res. Bethesda, Md.): A rapid method for calibration of micropipets.Anal. Chim. Acta 45 (1969) 526–7.
Gureev, E. S., Islamov, T., Muminova, M. F., Miroshnikova, V. S.(Institute of Nuclear Physics, Tashkent, USSR): Quantitative determination of two-component mixture of radionuclides.Izv. Akad. Nauk Uz. SSR, Ser. Fiz. Mat. Nauk No. 4 (1968) 56–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 26192.
Hekrdle, J., Vydra, M.(Czechoslovak Acad. Sci., Inst. of Nuclear Res. Prague-Řež): Nomograph for the determination of the optimum measuring time of radio-active samples.Jaderná Energie 15 (1969) 168–70 (in Czech).
Hoyer F.(CERN, Geneva, Switzerland): On the reproducible measurement of55Fe besides inactive iron as target using liquid scintillation counter.Nucl. Instr. Methods 68 (1969) 531–2 (in German).
Hülsen, W., Prenzel, U.(Kernforschungszentrum Karlsruhe, Germany): Dry counting of32P in liquid scintillation counters.Anal. Biochem. 26 (1968) 483–4 see alsoNucl. Sci. Abstr. 23 (1969) No. 17357.
Jász, Á.(Isotope Institute of the Hung. Acad. Sci., Budapest): Quality control of radio-pharmaceuticals.Izotópkémiai Kutatások, Magy, Tud. Akad. Izotóp Intézete, Budapest, 1969, 357–68 (in Hungarian).
Jirkowsky, J., Obst, M., Šimon, L.: Neues Verfahren zur Bestimmung von K2O in Feldspaten mittels des Radioisotopes40K.Silikat J. 8 (1969) No. 2-3, 44–5, see alsoRef. Zh. Khim. 19 (1969) No. G 120.
Johnson, M. K.(Medical Res. Council, Toxical Res. Unit. Biochemical Mechanisms Section, Carshalton, Surrey, England): Counting of Cerenkov radiation from32P in nonaqueous media.Anal. Biochem. 29 (1969) 348–50.
Jorda, P., Köberble, P.(Eidgen. TH, Labor. für Org. Chemie, Zürich, Switzerland): On an important potential source of error in the routine determination of radioisotopes of low energy by liquid scintillation counting.Nucl. Instr. Methods 68 (1969) 355–6.
Kim, S. M.(Illinois State Geological Survey, Urbana, Illinois 61801, USA): Precision of natural radiocarbon measurement.Radiochem. Radioanal. Letters 2 (1969) No. 4, 187–93.
Kohman, T. P., Tanner, J. T., Ostic, R. G.(Carnegie-Mellon Univ., Pittsburgh, Pa; Lindsay Collegiate and Vocational Inst., Lindsay, Canada): Extinct natural radioactivity and possible lunar manifestations.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Ling, T. H., Pohlit, H. (Univ. of California, Lawrence Radiation Labor., Labor. of Chemical Biodinamics, Berkeley, Calif.): An improved method for the liquid scintillation counting of14CO2.Anal Biochem. 28 (1969) 150–5.
Lippert, T. H., Ehe, L. (Univ. Heidelberg, Germany): The liquid scintillation measurement of14C in aqueous solutions of feces and urine.Z. Klin. Chem. Klin. Biochem. 6 (1968) 466–7, se alsoNucl. Sci. Abstr. 23 (1969) No. 24109.
Lloyd-Jones, C. P., Skerrett, E. J. (Research Station Long Ashton, Bristol, Univ. of Bristol, Dep. of Agriculture and Horticulture): Automatic counter for radioactive deposits on planchets.Analyst 94 (1969) 236–41.
Moore, W. S. (Dept. of Earth and Space Sciences, State Univ. of New York, Stony Brook, N. Y.): Measurement of228Ra and228Th in sea water. TID-24654, 1968, 32 p., see alsoNucl. Sci. Abstr. 22 (1968) No. 45205.
Morris, A. J., Thackray, M. (Australian Atomic Energy Commission Research Establishment, Lucas Heights, Australia): Determination of gases in neutron irradiated beryllium oxide by gas chromatography. Hydrogen, tritium, helium, nitrogen, oxygen, and carbon monoxide.Anal. Chem. 41 (1969) 467–70, see alsoNucl. Sci. Abstr. 23 (1969) No. 15784.
Mukherjee, P., Sengupta, A. K. (Saha Inst. of Nuclear Phys., Calcutta, India):152Eu as a calibrating source for Ge(Li) detectors.Nucl. Instr. Methods 68 (1969) 165–6.
Roberts, W. A.: Preparation of liquid scintillation mixtures for the measurement of14C and3H samples.Lab. Pract. 17 (1968) No. 6, 703–6, see alsoRef. Zh. Khim. 15 (1969) No. B 806
Simon, H., Günther, H., Kellner, M., Tykva, R., Berthold, F., Kolbe, W.: Neuere Verfahren zur Analytik von radioaktiven und stabilen Isotopen des Wasserstoffs, Kohlenstoffs, Stickstoffs, und Sauerstoffs.Z. Anal. Chem. 243 (1968) 148–69, see alsoRef. Zh. Khim. 15 (1969) No. B 790.
Sivintsev, Y. V., Yuzgin, V. S.: Investigation of optimum geometry of40K measurement using a human body radiation spectrometer.At. Energ. (USSR) 26 (1969) 344–7 (in Russian).
Smith, L. W. (ARS, United States Dep. of Agriculture, Beltswille, Md.): Combustion and liquid scintillation determination of14C in biological samples.Anal. Biochem. 29 (1969) 223–9.
Sodd, V. J., Scholz, K. L. (National Center for Radiological Health, Nuclear Med. Section, Cincinnati, Ohio): Analysis of tritium in water: a collaborative study.J. Assoc. Offic. Anal. Chem. 52 (1969) 90–3.
Szarvas, T., Ömböly, C., Végh, G. (Isotope Institute of the Hung. Acad. Sci., Budapest): Problems of sample preparation of organic compounds labelled with soft beta-emitting isotopes for activity measurement.Izotópkémiai Kutatások, Magy. Tud. Akad. Izotóp Intézete, Budapest, 1969, 329–56 (in Hungarian).
Tanguy, J.: Detection des particules alpha par semi-conducteurs. Application au contrôle de l’extraction du plutonium.Thès. Doct-ingr. Fac. Sci. Univ. Paris. Rapp. CEA No. 3442, 1968, 128 p., see alsoRef. Zh. Khim. 17 (1969) No. B 641.
Török, G., Nagy, L. G., Szarvas, T.: Detection of weak beta emitters by liquid scintillation counting technics. Part 2. Some phenomena observed in the presence of gases in liquid scintillation systems.Periodica Polytechn. Chem. Eng. 12 (1968) 229–43, see alsoRef. Zh. Khim. 20 (1969) No. B 632.
Trombka, I. J., O’Foghludha, F. (Goddard Space Flight Center, Greenbelt, Md.; Medical College of Virginia, Richmond, Va.): Remote analysis of pulse-height spectra.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969, see alsoAbstr. of papers, p. 55.
Turner, J. C. (Radiochemical Centre, Amersham, Buckinghamshire, England): Tritium counting with the Triton X-100 scintillant.Intern. J. Appl. Radiation Isotopes 20 (1969) 499–505.
Vakulovsky, S. M., Silantjev, A. N. (Inst. for Experimental Meteorol., Obninsk, USSR): Radiometric device for determining the90Sr content in sea water.Nucl. Instr. Methods 68 (1969) 42–4.
Watson, E. E., Cloutier, R. J., Berger, J. D. (Oak Ridge Associated Univ., Oak Ridge, Tenn.): Tritium concentrations in neutron generator pump oil.Health Phys. 17 (1969) 739–40.
Analytical separation involving radioisotopes
Antonov, P. G., Shvedov, V. P.: Study of amalgamation conditions of rare-earth elements by means of electrolysis of aqueous acetate-tartarate electrolytes.Radiokhimiya 11 (1969) 307–11 (in Russian).
Antonov, P. G., Shvedov, V. P.: Separation of rare-earth elements of yttrium subclass by means of electrolysis with mercury cathode in the acetate-tartarate medium.Radiokhimiya 11 (1969) 311–7 (in Russian).
Antonov, A. V., Shtenke, A. A., Shvarev, V. S.: Determination of microamounts of thorium in preparations of the rare-earth elements.Zh. Analit. Khim. 24 (1969) 848–52 (in Russian).
Baruel, J., Marques, R. O. (Commission Nacional de Energie Atomica, Buenos Aires, Argentina): The use of thin layer electrophoresis in the radiochemical purity control of labelled compounds.Radiochem. Radioanal Letters 2 (1969) No. 5, 217–24.
Beasley, T. M. (Univ. of Washington, Seattle, Wash.): The use of 1,2-cycloheptanedionedioxime (Heptoxime) in the determination of nickel radionuclides.Health Phys. 17 (1969) 743–5.
Belkas, E. P., Perricos, D. C. (Nuclear Res. Center ‘Democritos’, Athens, Greece):99mTc production based on the extraction with methyl-ethyl ketone.Radiochim. Acta 11 (1969) 56–7.
Beneš, P., Smetana, J. (Technical Univ., Dep. of Nuclear Chem., Prague, Czechoslovakia): Radiochemical study of sorption of trace elements. Part 4. Adsorption of iron on polyethylene and its state in aqueous solutions.Collection Czech. Chem. Commun. 34 (1969) 1360–74.
Beneš, P., Rajman, I. (Technical Univ., Dep. of Nucl. Chem., Prague, Czechoslovakia): Radiochemical study of sorption of trace elements. Part 5. Adsorption and desorption of bivalent mercury on polyethylene.Collection Czech. Chem. Commun. 34 (1969) 1375–86.
Beneš, J. (Czechoslovak Acad. Sci., Inst. of Nuclear Res., Prague-Řež): Precipitation and co-precipitation in the presence of chelating agents. Part 4. Precipitation of barium chromate from EDTA.Collection Czech. Chem. Commun. 34 (1969) 1514–22.
Beneš, J., Vobecký, M., Bárta, K. (Czechoslovak Acad., Sci., Inst. of Nuclear Res., Prague-Řež): Precipitation and co-precipitation in the presence of chelating agents. Part 5. The contamination of barium by uranium fission products in EDTA.Collection Czech. Chem. Commun. 34 (1969) 1523–32.
Betterridge, D., Stradling, G. N. (Univ. Coll., Chem. Dep. Swansea): Ion-exchange characteristics of a chromium tripolyphosphate glass.J. Inorg. Nucl. Chem. 31 (1969) 1507–14.
Birgul, O., Lyle, S. J. (Canterbury Univ., Chemical Labor., Kent, England): Radiochemical studies of 3- and 14.8-MeV neutron induced fission of231Pa.Radiochim. Acta 11 (1969) 108–12.
Blachot, J., Benabed, A., Herment, J., Monnand, E.: Séparations radiochimiques de hafnium, tantale et germanium à partir de tungstene et de sélénium irradiés par neutrons de 14 MeV.Rapport CEA No. 3678, 1968, 9 p., see alsoRef. Zh. Khim. 15 (1969) No. B 795.
Bochkarev, V. A.: Extraction of transplutonium elements with butyric acid.Radiokhimiya 11 (1969) 341–4 (in Russian).
Bourseau, R., Zini, E. (Commissariat à l’Energie Atomique, France): A method of measurement of the uranium content of a solution by gamma-ray spectrometry.Brit. Patent 1 143 846, Feb. 26, 1969. Prior, France, Feb. 18, 1966, see alsoNucl. Sci. Abstr. 23 (1969) No. 15817.
Braun, C., Amiel, S.: Continuous separation of short-lived iodine and bromine fission fragments using selective recoil labelling and gas chromatography.Israel Atomic Energy Commission Report No. 1168, 1968, 71–3, see alsoRef. Zh. Khim. 17 (1969) No. B 628.
Brigevich, R. F., Kuznetsov, R. A.: The sorption of Na by the ZrSb ion exchanger.Vestn. Leningradsk. Univ., Fiz. Khim. 24 (1969) No. 4 (1), 145–8 (in Russian).
Caletka, R. (Nuclear Research Inst., Czechoslovak Acad. Sci., Řež, near Prague, Czechoslovakia): The sorption of niobium on silica gel from mixed solutions of hydrochloric acid-dioxane.Radiochem. Radioanal Letters 2 (1969) No. 3, 139–45.
Chilton, J. M., Fardy, J. J. (Oak Ridge National Labor., Chemical Technol. Div., Oak Ridge, Tenn.; Australian Atomic Energy Comm. Lucas Heights, Sydney, Australia): Isolation of plutonium in chloride media anion exchange resin studies.J. Inorg. Nucl. Chem. 31 (1969) 1171–7.
Chuburkov, Y. T., Zvara, I., Shilov, B. V.: Experiences on the chemistry of element 104. Part 3. Chemical device using cyclotron beam.Radiokhimiya 11 (1969) 174–87 (in Russian).
Coleman, J. S., Asprey, L. B., Chisholm, R. C. (Univ. of California, Los Alamos Sci. Labor., Los Alamos, N. M.): The anion-exchange absorption of americium, yttrium, lanthanum, europium, and ytterbium from aqueous ammonium thiocyanate.J. Inorg. Nucl. Chem. 31 (1969) 1167–70.
Dyordyević, C., Gorichan, H., Sevdić, D. (Univ. Fac. Sci., Inst. ‘Rudjer Bošković’, Labor. of Analytical Chem., Zagreb, Yugoslavia): Solvent extraction of niobium and tantalum. Part 7. Extraction with di-n-octylamino alcohols from oxalic metal solutions.J. Inorg. Nucl. Chem. 31 (1969) 1487–94.
Egorov, Y. V., Lyubimov, A. S.: Oxyhydrate collectors in radiochemistry. Part 3. On the nature of sorption centers of some active MnO2 preparations.Radiokhimiya 11 (1969) 215–21 (in Russian).
Friedman, Ch., Schönfeld, T. (Inst. for Radiation Protection, Reactor Centre, Seibersdorf; Inst. for Inorg. Chem., Univ. of Vienna, Austria): Some results on the removal of radiocesium from low-activity waste water by co-precipitation with ferrocyanides.Radiochem. Radioanal. Letters 2 (1969) No. 6, 333–41.
Furnicâ, G. (Inst. de Igienâ, Labor. de Radiatii Ionizante, Bucuresti): Methodological principles for determining elemental radium.Studii Cercetari Chim. (Bucharest) 17 (1969) 307–33 (in Roumanian).
Gibalo, I. M., Albadri, D. C. (Moscow Univ., Chair of Anal. Chem.): Niobium and tantalum extraction from hydrochloric acid solution with benzaldehyde and acetophenone.Vestn. Moskovsk. Univ., Ser. Khim. 24 (1969) No. 2, 98–101 (in Russian).
Gimesi, O., Bányai, É., Csajka, M., Szabadváry, F.: Separation of ion traces of metals by heterogeneous isotope exchange.Symp. on Radioactive Isotopes in the Scientific Research, Nov. 12–13, 1969, Budapest.MTA Izotóp Intézete, Budapest, 1969, RIT-7 (Summary), (in Hungarian).
Girgis, A. M., Ekert, B., Vieuchange, J. (Centre National de la Recherche Scientifique, Paris; Fondation Curie Paris: Institut Pasteur, Paris, France): Chromatographic analysis of radioactive acid hydrolysate of He-La cells labelled with tritiated thymidine.Compt. Rend. Ser. D 267 (1968) 2358–71, see alsoNucl. Sci. Abstr. 23 (1969) No. 24105.
Gosman, A., Sedlácček, J. (Technical Univ. of Prague, Fac. Technical and Nuclear Physics, Dep. of Nuclear Chem., Prague, Czechoslovakia): Radiochemical study of self-diffusion and isotope exchange in aqueous solutions. Part 1. Self-diffusion of T1(I) and T1(III) ions in a perchloric acid medium.Radiochim. Acta 11 (1969) 112–7.
Gourisse, D., Chesné, A. (C. E. N. Commissariat à l’Energie Atomique, Dép. de Chimie. Fontenay-aux-Roses, France): Utilization of trylauramine in partition chromatography. Part 1. Analytical separation of Np from concentrated U solutions.Anal. Chim. Acta 45 (1969) 311–9 (in French).
Gourisse, D., Chesné, A. (C. E. N. Commissariat à l’Energie Atomique, Dép. de Chimie, Fontenay-aux-Roses, France): Utilization of trylauramine in partition chromatography. Part 2. Simultaneous analytical separation of Np and Pu from U.Anal. Chim. Acta 45 (1969) 321–5 (in French).
Hadzistelios, I., Papadopoulou, C. (Nuclear Res. Centre ‘Democritos’, Athens, Greece): Radiochemical micro-determination of managenese, strontium and barium by ion exchange.Talanta 16 (1969) 337–44.
Hála, J., Smola, J. (Univ. of Brno, Dep. of Physical Chem., Radiochemical Labor. Kotlářská, Czechoslovakia): Solvent extraction of hafnium(IV). Part 9. Stability of hafnium(IV) nitratocomplexes at ionic strength of 4.0M.J. Inorg. Nucl. Chem. 31 (1969) 1133–9.
Herforth, L., Koch, H.: Praktikum der angewandten Radioaktivität.VEB Dtsch. Verl. Wiss., Berlin, 1968, 515 p., see alsoRef. Zh. Khim. 20 (1969) No. B 599.
Honjyo, T. (Kyoto Univ., Inst. for Chemical Res., Uji, Kyoto, Japan): The synergistic effect in solvent extraction. The effect of chelating ligands on the stability of lutetium beta-diketonate adducts with TOPO.Bull. Chem. Soc. Japan 42 (1969) 995–9.
Horwitz, E. P., Bloomguist, C. A., Henderson, D. J. (Argonne National Lab., Chem. Div., Argonne, Illinois): The extraction chromatography of californium, einsteinium, and fermium with di(2-ethylhexyl)-orthophosphoric acid.J. Inorg. Nucl. Chem. 31 (1969) 1149–66, see alsoRef. Zh. Khim. 17 (1969) No. G 26.
Inarida, M., Shimamura, A. (Inst. of Phys. Chem. Research, Yamato-machi, Saitama, Japan): Separation of carrier-free76As from the78Se target.Radiochem. Radioanal. Letters 2 (1969) No. 2, 87–92.
Kamath, V. A., Parekh, P. P. (Bhabha Atomic Res. Centre. Anal. Div., Trombay, Bombay, India): Analysis of isotopic radium in thorium mill effluents.Talanta 16 (1969) 345–50.
Keller, C., Schreck, H. (Univ., Kernforschungszentrum, Lehrstuhl u. Inst. für Radiochemie. Karlsruhe): Chelate formation and extraction of trivalent actinium, americium, curium, and californium with acetylacetone and some of its derivatives.J. Inorg. Nucl. Chem. 31 (1969) 1121–32 (in German).
Kiselev, B. P.: Separation of radium and barium by the ion mobilities.Radiokhimiya 11 (1969) 252–4 (in Russian).
Kiss, I., Gróz, P., Révész, A., Sipos, T. (Central Res. Inst. for Physics, Budapest): Production of125I from pile-irradiated xenon difluoride.J. Inorg. Nucl. Chem. 31 (1969) 1225–7.
Klockow, D., Kriváň, V. (Chem. Labor., Univ. of Freiburg, Freiburg i. Br. German Federal Republic): Radiochemical separations by the ring-oven technique. Part 5. Silver-cadmium separations.Radiochem. Radioanal. Letters 2 (1969) No. 4, 181–6.
Konečný, C., Kouřim, V. (Nuclear Research Inst., Czechoslovak Acad. Sci. Řež near Prague, Czechoslovakia): Recovery of strontium by means of a polyantimonic(V) acid cation exchanger.Radiochem. Radioanal. Letters 2 (1969) No. 2, 47–52.
Kopta, S., Niewodniczański, H., Petryna, T., Stroński, I.: Production of carrier-free radioisotopes from targets irradiated with deuterons or alpha-particles in the U-120 Cracow Cyclotron. Part 1. Preparation of radioisotopes of cadmium, indium, and tellurium.Inst. Fizyki Jadrow, Krakowie, Rept. No. 662, 1968, 16 p., see alsoRef. Zh. Khim. 20 (1969) No. B 620.
Kopta, S., Niewodniczański, H., Petryna, T., Stroński, I.: Production of carrier-free radioisotopes from targets irradiated with deuterons or alpha-particles in the U-120 Cracow Cyclotron. Part 2. Preparation of radioisotopes of gadolinium, samarium, and thulium from targets of samarium, neodymium, and holmium.Inst. Fizyki Jçadrow, Krakowie, Rept. No. 663, 1968, 18 p., see alsoRef. Zh. Khim. 20 (1969) No. B 621.
Krtil, J., Bezděk, M. (Czechoslovak Acad. Sci., Inst. of Nuclear Res., Prague-Řež): Separation of radiocerium from the solution of fission products of uranium by extraction with di-(n-octyl) phosphoric acid.Collection Czech. Chem. Commun. 34 (1969) 1406–12.
Kulicke, P.: Radioanalytical Conference at Starý Smokovec, ČSR.Isotopenpraxis 5 (1969) 205–8 (in German).
Kuznetsov, V. I., Gudym, L. S., Rudenko, N. O., Avad, C. K.: Extraction of technetium and rhenium with 8-mercaptochinoline.Radiokhimiya 11 (1969) 240–2 (in Russian).
Kyrš, M., Michaluková, V., Beneš, J., Kadlecová, L. (Czechoslovak Acad. Sci., Inst. of Nuclear Res., Prague-Řež): Extraction of strontium and calcium ions into nitrobenzene in the presence of polyiodides.Collection Czech. Chem. Commun. 34 (1969) 1709–19.
Langford, J. C. (Battelle Memorial Inst., Pacific Northwest Lab., Richland, Washington): Procedure for the determination of lead-210 and total lead in biological samples.Anal. Chem. 41 (1969) 1716.
Lavrukhina, A.K., Kuznetsova, R. I., Kolesov, G. M., Malyshev, V. V.: Radiochemical investigation of products formed by nuclear fission of praseodymium with 660-MeV protons.Radiokhimiya 11 (1969) 330–8 (in Russian).
Lavrukhina, A. K., Sazhina, N. K. (Acad. Sci. USSR, V. I. Vernadskii Inst. of Geochem. and Analytical Chem., Moscow): Separation of iron, nickel and cobalt in an acetone-mineral acid medium by means of strongly basic anion exchange resins.Zh. Analit. Khim. 24 (1969) 870–4 (in Russian).
Levin, V. I., Kurchatova, L. N., Malinin, A. B.: Separation of carrier-free88Y from strontium targets.Radiokhimiya 11 (1969) 210–4 (in Russian).
Maly, J. (Univ. of California, Lawrence Radiation Labor., Berkeley, California): The amalgamation behaviour of heavy elements. Part 3. Extraction of radium, lead and the actinides by sodium amalgam from acetate solutions.J. Inorg. Nucl. Chem. 31 (1969) 1007–17.
Melikov, I. V., Evald, G.: Detailed investigation of co-precipitation mechanism. Part 2. Study of the NaCl−AgCl−H2O system.Radiokhimiya 11 (1969) 270–9 (in Russian)
Metson, P. (Ministry of Technology, Lab. of the Government Chemist., London, England): A routine method for the determination of tritium by electrolytic concentration before liquid scintillation counting.Analyst 94 (1969) 1122–9.
Meyer, H. G. (TH München, Inst. für Radiochemie, Garching, Germany): Determination of zinc and cadmium in phosphors employing cation-exchange separation.Z. Anal. Chem. 244 (1969) 394–5 (in German).
Miasoedov, B. F., Molochnikova, N. P.(Acad. Sci. USSR, V. I. Vernadskii Inst. of Geochem. and Anal. Chem., Moscow): Extraction of protactinium with 1-phenyl-3-methyl-4-benzoylpyrazolone-5.Zh. Analit. Chem. 24 (1969) 702–6 (in Russian).
Michailov, M., Sorantin, H. (Inst. für Chemie, Reaktorzentrum Seibersdorf, Österreichische Studiengesellschaft für Atomenergie, G.m.b.H., Lenaugasse 10, A-1082, Wien, Austria). Labelling of oils with59Fe.Radiochem. Radioanal. Letters 2 (1969) No. 3, 107–17.
Michalov, M., Sorantin, H. (Inst. für Chemie, Reaktorzentrum Seibersdorf, Österreichische Studiengesellschaft für Atomenergie, G. m. b. H., Lenaugasse 10, A-1082, Wien, Austria): Labelling of oils with51Cr.Radiochem. Radioanal. Letters 2 (1969) No. 6, 343–9.
Miettinen, J. K.: New results in radiochemistry.Suomen. Kem. 42 (1969) No. 4, A80-A83 (in Finnish), see alsoRef. Zh. Khim. 19 (1969) No. B 664.
Mikulai, V., Dobiashi, M. (Komenskii Univ., Fac. Natural Sci., Dep. of Inorg. and Radiochem., Bratislava): Separation of99Mo,99mTc, and186Re by thin-layer chromatography.Acta Fac. Rer. Nat. Univ. Comenianae, Chim. 12 (1968) 125–31 (in Russian).
Miller, J., Tóth, G. (Isotope Institute of the Hung. Acad. Sci., Budapest). Spontaneous deposition of elements from aqueous solutions on platinum metal surfaces and application of the phenomenon.Izotópkémiai Kutatások, Magy. Tud. Akad. Izotóp Intézete, Budapest, 1969, 39–52 (in Hungarian).
Mirza, M. Y., Aziz, A. (Pakistan Inst. of Nucl. Sci. and Technol., Isotope Production Div. P. O. Nilore, Islamabad, West Pakistan): A scandium generator.Radiochim. Acta 11 (1969) 43–4.
Monnier, D., Haerdi, W., Rusconi, Y.: Chimie analytique bases théoriques, radiochimie qualitative.Georg et Cie. Genève;Dunod, Paris, 1968, 321 p., see alsoRef. Zh. Khim. 24 (1969) No. G 73, andBibl. France 158 (1969) No. 26, 803.
Mucheev, N. B. (Ministry of Health of USSR, Biophysical Inst.):90Y- and140La-generators.Isotopenpraxis 5 (1969) 188–9 (in Russian).
Muller, J. C., Ferrandini, C. (Laboratoire Curie, 11 rue P. et M. Curie, Paris Ve,France): Dosage relatif d’ions ferreux et ferriques à l’échelle du nanogramme à l’aide du radiofer.Radiochem. Radioanal. Letters 2 (1969) No. 5, 273–8.
Nachutin, I. E., Smirnova, N. M., Leushkina, G. A., Loshakov, G. A.: Adsorption of radioactive iodine vapour from air.At. Energ. (USSR) 26 (1969) 390–1 (in Russian).
Nakanishi, T., Sakanoue, M. (Kanazawa Univ., Fac. Sci., Radiochemical Labor., Dep. of Chem., Kanazawa, Japan): Ion-exchange separation of the daughter231Pa.Radiochim. Acta 11 (1969) 119.
Navrátil, O., Šorfa, J. (Purkyně Univ., Dep. of Physical Chem., Brno, ČSR): Vizmutiol as the reagent for selenium and tellurium.Collection. Czech. Chem. Commun. 34 (1969) 975–83.
Novikov, A. I., Egorova, L. A., Ruzankin, V. I.: Separation of Na, Mg, and Al by co-precipitation with iron hydroxide.Radiokhimiya 11 (1969) 350–2 (in Russian).
Novikov, A. I., Ruzankin, V. I., Dedova, V. F.: Separation of Sc, Ti, and V by co-precipitation with iron and zirconium hydroxides.Radiokhimiya 11 (1969) 347–50 (in Russian).
Novikov, A. I., Ruzankin, V. I., Dolzhenko, Y. K., Starovoit, I. A.: Separation of K, Ca, and Sc by co-precipitation with iron hydroxide.Radiokhimiya 11 (1969) 227–9 (in Russian)
Petrukhin, O. M., Zolotov, Y. A., Izosenkova, L. A.: Extraction of valent unsaturated intra-complex compounds. Tin(IV) 8-oxychinolinate.Radiokhimiya 11 (1969) 139–48 (in Russian).
Rafaeloff, R. (Soreq Nuclear Research Centre, Yavne, Israel): The electrodeposi tion of indium.Radiochem. Radional. Letters 2 (1969) No. 2, 93–9.
Raichev, Ch., Khalkin, V. A.: Influence of column form on ion-exchange chromatography.Radiokhimiya 11 (1969) 259–60 (in Russian).
Rainey, R. H., Carter, W. L., Blumkin, S., Fain, D. E.: Separation of radioactive xenon and krypton from other gases by use of permselective membranes.Treatment of Airborne Radioactive Wastes, IAEA, Vienna, 1968, 323–41, see alsoRef. Zh. Khim. 19 (1969) No. B 670.
Ross, R. (Zentralinst. für Kernforschung, Bereich Kernphysik, Rossendorf b. Dresden): Rapid separation of carrier-free Eu from macro-amounts of Gd.Isotopenpraxis 5 (1969) 233 (in German).
Schroeder, H. J., Durcak, H. (Kernkraftwerk RWE-Bayernwerk GmbH., Grundremmingen): Determination of the activity of64Cu in reactor water.kerntechnik 11 (1969) 144–5 (in German).
Sekine, T., Dyrssen, D. (Sweden, Univ. of Göteborg, Dep. of Analytical Chem., Göteborg): The solvent extraction of alkali metal tetraphenylborates.Anal. Chim. Acta 45 (1969) 433–46.
Sekine, T., Koike, Y., Hasegawa, Y. (Sci. Univ. of Tokyo, Dep. of Chem., Kagurazaka, Shinjuku-ku, Tokyo, Japan): Studies of actinium(III) in various solutions. Part 2. Distribution behaviour of lanthanum(III) and actinium(III) in some chelate extraction systems.Bull. Chem. Soc. Japan 42 (1969) 432–6.
Shamaev, V. I. (D. I. Mendeleev Chemico-Technological Inst., Moscow): Analysis of antimony-bismuth alloys by a radiometric method.Zh. Analit. Khim. 24 (1969) 894–8 (in Russian).
Shigematsu, T., Tabushi, M., Matsui, M., Honjyo, T. (Kyoto Univ., Inst. for Chemical Res., Uji Kyoto, Japan): The synergistic effect in solvent extraction. The effect of carboxylic acid on the solvent extraction of europium(III) with benzoyltrifluoroacetone.Bull. Chem. Soc. Japan 42 (1969) 976–80.
Smułek, W. (Department of Radiochem., Institute of Nuclear Research, Warsaw-Žerań, Poland): Extraction of ruthenium tetroxide from irradiated uranium fuel samples.Radiochem. Radioanal. Letters 2 (1969) No. 5, 265–71.
Starik, I. E.: Fundamental radiochemistry. 2nd ed.Nauka, Leningrad, 1969, 647 p. (in Russian), see alsoRef. Zh. Khim. 23 (1969) No. B 688.
Surin, V. M. Stabrovskii, A. I., Rachev, V. V.: Investigation of cathodic precipitation of neptunium compounds on metals. Part 3. Mechanism of electro-precipitation of neptunium compounds from aqueous solutions and the structure of cathodic sedimentation.Radiokhimiya 11 (1969) 295–300 (in Russian).
Teague, J. L., Sandoval, A. A. (Univ. of Missouri, Dep. of Chem., Kansas, City, Mo.): Neutron-irradiated phosphorus tribromide and its hydrolysis products.Radiochim. Acta 11 (1969) 57–8.
Thakur, M. L., Nunn, A. D. (Medical Research Council, Cyclotron Unit., Hammersmith Hospital, London, W. 12, U. K.): Preparation of carrier-free62Zn for medical use.Radiochem. Radioanal. Letters 2 (1969) No. 5, 301–6.
Urbański, T. S., Weźrenowski, E., Kościukowa, E., Radvan, M. (Inst. für Kernforschung, Abt. für Anwendung von Isotopen in Metallurgie, u. Metallkunde, Swierk, Polen): The problem of separating tracer isotopes from a bulk of labelled material.Isotopenpraxis 5 (1969) 181–6 (in German).
Van, Nguyen Huu, Lalou, C. (Centre des Faibles Radioactivités, C.N.R.S., Gifsur-Yvette; Service d’Electronique Physique, Centre d’Etudes Nucléaires de Saclay, Gif-sur-Yvette, France): Détermination simultanée du rapport isotopique234U/238U et de la teneur en uranium-238 dans les eaux naturelles.Radiochim. Acta 12 (1969) 156–60 (in French).
Vernois, J., Mordant, G., Muxart, R. (Inst. de Phys. Nucléaire, Div. de Radiochem., Labortoire d’Arcueil, 4, Avenue de la Convention, 94, Arcueil, France): Separation du niobium et du protactinium par amalgamation.Radiochem. Radioanal. Letters 2 (1969) No. 6, 327–32.
Wakat, A., Griffin, C. (Dep. of Chem., Univ. of Michigan, Ann Arbor, Michigan, U. S. A.): Rapid isolation of individual rare-earths from fission and identification of152Nd.Radiochem. Radioanal. Letters 2 (1969) No. 6, 351–7.
Wang, D. Y., Bulbrook, R. D. (Imperial Cancer Research Fund, London, England): A method for determining the radiochemical purity of steroids.J. Endocrinol. 42 (1968) 159–60, see alsoNucl. Sci. Abstr. 23 (1969) No. 21661.
Zaitsev, V. M., Guselnikov, V. S., Makhomolkina, S. M.: Rapid chromatographic and electrophotometric separation of four-and six-valent states of tellurium.Radiokhimiya 11 (1969) 352–3 (in Russian).
Zelenay, T. (Dep. of Radiochem., Inst. of Nuclear Research, Warsaw-Żerań, Poland): Determination of fission product148Nd for burn-up.Radiochem. Radioanal. Letters 2 (1969) No. 1, 33–40.
Zolotov, Y. A., Alimarin, I. P., Spivakov, B. Y. (V. I. Vernadskii Inst. of Geochem. and Analytical Chem., Moscow): Exchange extraction reactions of chelate compounds.Izv. Akad. Nauk SSR, Ser. Khim. 3 (1969) 579–84 (in Russian).
Zvara, I., Chuburkov, Y. T., Zvarova, T. S., Caletka, R.: Experiences on the chemistry of element 104. Part 1. Elaboration of a method for the investigation of short-lived isotopes.Radiokhimiya 11 (1969) 154–63.
Zvara, I., Chuburkov, Y. T., Caletka, R., Shalaevskii, M. R.: Experiences on the chemistry of element 104. Part 2. Chemical investigation of the fissionable isotope with a half-life of 0.3 sec.Radiokhimiya 11 (1969) 163–74 (in Russian).
Zsinka, L., Szirtes, L. (Isotope Institute of the Hung. Acad. Sci., Budapest, Hungary): Use of chromium in ion exchange separation technique.Radiochem. Radioanal. Letters 2 (1969) No. 5, 257–63.
Zsinka, L., Szirtes, L. (Isotope Institute of the Hung. Acad. Sci., Budapest): Investigation of synthetic inorganic ion exchangers.Izotópkémiai Kutatások, Magy. Tud. Akad. Izotóp Intézete, Budapest, 1969, 11–38 (in Hungarian).
Yagodin, G. A., Chekmarev, A. N.: Study of extraction, separation of elements by downward phase paper-chromatography.Radiokhimiya 11 (1969) 234–6 (in Russian).
Analysis using radioactive reagents
Ackermann, G., Weber, E. (Inst. für anorganische und analytische Chemie, Bergakademie Freiberg, DDR): Quantitative paper chromatography of inactive substances by radioactive additives. Part 1.Talanta 15 (1968) 63–71 (in German), see alsoNucl. Sci. Abstr. 22 (1968) No. 10183.
Braun, T., Tölgyessy, J.: Radiometrische Titrationen.Hirzel, Stuttgart, 1968, 144 p., see alsoRef. Zh. Khim. 23 (1969) No. G 67, andDtsch. Bibliogr. A, No. 27 (1969) 2038-9.
Konečńy, J., Tölgyessy, J., Dillinger, M. (Dept. of Radiochem. and Radiation Chem., Chemical-Technological Fac., Slovakian T. H., Bratislava; Dept. of Inorg. and Radiochem., Fac. Natural Sci., Komenskij Univ., Bratislava, Czechoslovakia): Determination of Co by radiometric ion-exchange titration by means of EDTA as titrant.Acta Fac. Rerum Nat. Univ. Comenianae Chim. No. 12 (1968) 87–94 (in Russian).
Mlinkó, S., Gács, I. (Ungar. Akad. Wiss., Zentralforschungsinst. für Chemie, Budapest): Radiometric determination of the hydrogen and oxygen content of organic compounds by means of14C. Part 1. Preparation of14C.Mikrochim. Acta 3 (1969) 504–16 (in German).
Mlinkó, S. (Ungar. Akad. Wiss., Zentralforschungsinst. für Chemie, Budapest): Radiometric determination of the hydrogen and oxygen content of organic compounds by means of14C. Part 2. Selection of radiostoichiometric factors and of specific activity of C.Mikrochim. Acta 3 (1969) 517–21 (in German).
Purkayastha, U., Maity, H. P.: On the study of micro-estimation of silver and iodide by radiometric procedure with131I in presence of other insoluble iodides.Indian J. Appl. Chem. 31 (1968) No. 5-6, 181–4, see alsoRef. Zh. Khim. 23 (1969) No. G 81.
Tölgyessy, J., Jesenák, V. (TH, Lehrstuhl für Radiochemie u. Strahlenchemie; Lehrstuhl für anorgan. Technologie, Bratislava, ČSR): Radioactive kryptonates in volumetric analysis. Part 9. Precipitation titrations using the radioactive silver kryptonate as redox indicator.Isotopenpraxis 5 (1969) 186–8 (in German).
Tölgyessy, J. (Chemickotechnologická Fak. SVŠT, Katedra Radiochém. Radiačnej Chémie, Bratislava, Czechoslovakia): Radioactive kryptonates in the volumetric analysis.Chem. Listy 63 (1969) 513–37 (in Czech).
Environmental monitoring A. Results
Anon. (Kommission der Europäischen Gemeinschaften, Generaldirektion Soziale Angelegenheiten, Gesundheitsschutz, Luxembourg): Messwerte der Umweltradioaktivität in den Ländern der Gemeinschaft im Jahre 1967—Luft, Niederschläge, Wasser. EUR-4246-d/f/i/n, 1968, 68 p.
Běhounek, F., Matcušková J. (Czech. Technical Univ. Nuclear and Physical Engng. Fac.; Czechoslovak Acad. Sci., Inst. of Nuclear Res., Radiologic Dosimetry Dep., Prague): The induced radioactivity of the atmosphere in the period 1966–68.Jaderná Energie 15 (1969) 145–6 (in Czech).
Cerrai, E., Triulzi, C. (Centro Informazioni Studi Esperienze, Milan, Italy): Vertical distribution of137Cs,125Sb and60Co in coastal marine sediments.Energia Nucl. (Milan) 16 (1969) 36–40, see alsoNucl. Sci. Abstr. 23 (1969) No. 9548.
Crozaz, G. (Univ. Libre de Bruxelles, Service de Géol. et Geochim. Nucléaires, Brussels, Belgium): Fission products in Antarctic snow, an additional reference level in January 1965.Earth Planet. Sci. Lett. 6 (1969) No. 1, 6–8.
Csupka, S. (Bezirkshygiene Inst., Bratislava, ČSR): Amount of dust precipitated and its influence on fallout activity level.Kernenergie 12 (1969) 136–38 (in German).
Cummings, S. L., Bankert, L., Garrett, A. R., Regnier, J. E. (South-eastern Radiological Health Lab., Natl. Center for Radiological Health, Public Health Service; U. S. Dept. of Health, Education, and Welfare, Montgomery, Ala.):137Cs uptake by oat plants as related to the soil fixing capacity.Health Phys. 17 (1969) 145–8.
Diamond, H., Fields, P. R., Metta, D. N., Stevens, C. M.:Argonne National Laboratory, Argonne, Illinois): Search for transuranics in lunar samples.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Essig, T. H. (Pacific Northwest Lab., Battelle-Northwest, Richland, Washington): Radiological status of the ground water beneath the Hanford Project, July–December 1967. BNWL-835, June 5, 1968, 13 p., see alsoNucl. Sci. Abstr. 22 (1968) No. 40208.
Fahland, I. (Mainz Univ., Inst. für Anorg. Chemie u. Kernchemie): Fallout from Chinese nuclear tests.Z. Naturforsch. 24a (1969) 653–9 (in German).
Fireman, E. L. (Smithsonian Astrophysical Observatory, Cambridge, Mass.): Radioactive isotopes in returned lunar samples.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Fujita, M., Iwamoto, J., Kondo, M., Yabe, A., Akaishi, J.(Div. of Health Phys. and Safety, Japan Atomic Energy Res. Inst., Tokai, Ibaraki, Japan): Correlation between ingestion, accumulation and excretion of fallout90Sr in manon a long-term scale.Health Phys. 17 (1969) 41–50.
George, A., Breslin, A. J.(Health and Safety Lab., U. S. Atomic Energy Comm., New York, N. Y.): Deposition of radon daughters in humans exposed to uranium mine atmospheres.Health Phys. 17 (1969) 115–24.
Got, H.(Centre de Recherches de Sédimentologie Marine, Perpignan, France): The natural radioactivity of sediments of the Bay of Banyuls.Cah. Océanogr. 20 (1968) 225–35 (in French), see alsoNucl. Sci. Abstr. 22 (1968) No. 35955.
Harvey, R. S.(Savannah River Lab., E. I. du Pont de Nemours and Company, Aiken, S. C.): Uptake and loss of radionuclides by the freshwater clam Lampsilis radiata (Gmel.).19th Annual American Institute of Biological Sciences Meeting, Ohio State University, Sept. 3–7, 1968. Health Phys. 17 (1969) 149–54.
Jaworowski, Z.(Inst. for Nuclear Res. Warsaw, Poland): Radioactive lead in the environment and in the human body.At. Energie Rev. (Vienna) 7 (1969) 3–45.
Jeanmaire, L. Patti, F.(Commissariat à l’Energie Atomique, Centre d’Etudes Nucléaires, Fontenay-aux-Roses, France):90Sr content of human bone collected in 1967. CEA-R-3681, Jan. 1969, 9 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 22281 (in French).
Lalit, B. Y., Chandrasekaran, V. R.: Radiostrontium in the air and surface deposition.J. Sci. Ind. Res. 27 (1968) No. 9, 335–8, see alsoRef. Zh. Khim. 24 (1969) No. B 923.
Mamuro, T., Matsunami, T.(Radiation Center of Osaka, Sakai-shi, Osaka, Japan):238Pu in fallout.Naturwissenschaften 163 (1969) 465–7.
O’Kelley, G. D., Eldridge, J. S., Bell, P. R., Richardson, K. A., Schonfeld, E.(Oak Ridge Natl. Lab., Oak Ridge, Tenn.; Natl. Aeronautics and Space Administration, Manned Spacecraft Center, Houston, Tex.): Gamma-ray spectrometry of returned lunar samples.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Pelati, L. T., Triulzi, C.(Labor. CISE Segrate,Milano; Univ. de Parma, Istituto di Zoologia, Parma): Radioactivity content in some plankton and sea water samples collected during the period between 1960–68 and their correlations.Energia Nucl. (Milan) 16 (1969) 311–20.
Perkins, R. W., Rancitelli, L. A., Cooper, J. A., Kaye, J. H., Wogman, N. A.(Battelle-Northwest, Richland, Wash.): Lunar sample analysis for primordial and cosmogenic radionuclides.157th National American Chemical Society Meeting, Minneapolis, Minn., Apr. 13–18, 1969.
Rançon, D.(Centre d’Etudes Nucléaires de Cadarache, France): Contamination des sols. 1re Partie. Evolution de l’humidité dans les sols non saturés après rejets sur une surface limitée. CEA-R-3635(1), Feb. 1969, 53 p.
Roessler, C. E., Williams, E. G., Nettles, E. D.(University of Florida, Gainesville, Florida; Division of Radiological Health, Florida State Board of Health, Jacksonville, Florida): Cesium-137 and strongtium-90 in Florida milk—a five-year study of distribution and levels.Health Phys. 16 (1969) 681–9.
Szalay, A., Csongor, E.(Inst. of Nuclear Research, Debrecen, Hungary): Precipitation of fission products from the atmosphere in Debrecen, Hungary, during 1966 and 1967.Acta Phys. Acad. Sci. Hung. 25 (1968) 279–86, see alsoNucl. Sci. Abstr. 23 (1969) No. 19868.
Van Der Stricht, E.(European Atomic Energy Community—EURATOM, Directorate General for Social Affairs; Directorate for Health and Safety, Brussels, Belgium): Comparison of the radioactive contamination of the total diet of adolescents in the community. Part 1. Interlaboratory comparison programmes. Results and comments. EUR-3945 e, Oct. 1968, 72 p.
Wetherill, J. M.(Div. of Industrial Health Services, Alberta Dept. of Health, Edmonton, Canada): Field measurements of radon in the air of a coal mine in Southwestern Alberta.Can. Mining Met. Bull. 61 (1968) 1335–6.
Zindler, H.(Staatliche Zentrale für Strahlenschutz der DDR, Berlin—Friedrichshafen): Fission products of the Chinese nuclear explosions detected on the territory of the G.D.R.Kernenergie 12 (1969) 216–20 (in German).
B. Methods
Anon.(International Atomic Energy Agency, Vienna, Austria): Quick methods for radiochemical analysis. STI/DOC-10/95, Feb. 1969, 63 p.Technical Reports Series No. 95, see alsoNucl. Sci. Abstr. 23 (1969) No. 19661.
Atherton, D. R. (Radiobiology Div., Utah Univ., Salt Lake City, Utah): EHPA scintillator method: analysis of bone samples for239Pu. COO-119-237, Mar. 31, 1968, 158–62, inDougherty, T. F.: Research in radiobiology.Annual Report of Work in Progress in the Internal Irradiation Program, see alsoNucl. Sci. Abstr. 23 (1969) Nos 11431 and 11975.
Bhanti, D. P., Soman, S. D.(Bhabha Atomic Res. Centre, Bombay, India): A simple method for prompt estimation of plutonium in air.Regional Seminar for Asia and the Far East on Radiation Protection Monitoring, Bombay, India, Dec. 9–13, 1968. SM-114/16. AED-Conf. 68-332-007, 11 p.
Bortoli, M. C. de, Gaglione, P.(Site Survey and Meteorology Sect., Protection Service, Joint Nuclear Res. Centre, Ispra Establishment, Ispra, Italy): Natural and fallout radioactivity in the soil.Health Phys. 17 (1969) 701–10.
Cardinale, A., Frittelli, L.(Comitato Nazionale Energia Nucleare, Rome, Italy): Improved methods for the measurement of gamma exposure rate in the natural radiation environment. RT/FI/68/54, 1968, 35 p.
Carr, J. A.(Ministry of Agriculture, London, England): Environmental monitoring emergency situations.IAEA Seminar on Agricultural and Public Health Aspects of Environmental Contamination by Radioactive Materials, Vienna, Austria, Mar., 24–28, 1969. SM-117-58. AED-Conf. 69-028-032, 12 p.
Chesselet, R.(Commissariat à l’Energie Atomique, France): Etude de la radioactivité artificielle du milieu marin par spectrométrie gamma (1962–1966).Diss. Univ. Paris, 1966, 119 p. CEA-R-3698, Mar. 1969.
Cohen, N., Kneip, T. J.(New York Univ. Med. Center, Inst. of Environmental Med., New York, N. Y.): A method for the analysis of210Pb in the urine of uranium miners.Health Phys. 17 (1969) 125–30.
Cooper, J. A., Wogman, N. A., Palmer, H. E., Perkins, R. W.(Battelle Memorial Inst., Pacific Northwest Lab., Richland, Washington): The application of solid state detectors to environmental and biological problems.156th National Meeting of the American Chemical Soc., Atlantic City, N. J., Sept. 8–13, 1968. AED-Conf. 68-214-040, 15 p.,Health Phys. 15 (1968) 419–33.
Csongor, É.(MTA Atommag Kutató Intézete, Debrecen, Hungary):85Kr in the earth’s atmosphere.Fiz. Szemle 19 (1969) 33–5 (in Hungarian).
Dojlido, J.: The determination of the90Sr content of surface waters.Prace Inst. Gospod. Wodn. 5 (1969) No. 3, 5–13 (in Polish), see alsoRef. Zh. Khim. 24 (1969) No. G 154.
Dushauskene-Duzh, N. F., Polikarpov, G. G., Styro, B. I.(Acad. Sci. Lithuan SSR, Inst. of Physics and Mathematics, Vilnyus; Acad. Sci. Ukrain SSR, Inst. for Biol. of South Sea, Sevastopol):90Sr accumulation coefficients in some fish species.Radiobiologiya 9 (1969) 113–5 (in Russian).
Fourie, H. O., Ghijsels, J. P.(Atomic Energy Board, Isotopes and Radiation Div. Pelindaba, South Africa): Radiostrontium in biological material: a precipitation and extraction procedure eliminating the use of fuming nitric acid.Health Phys. 17 (1969) 685–9.
Golchert, N. W., Sedlet, J.(Argonne National Lab., Ill.): Radiochemical determination of99Tc in environmental water samples.Anal. Chem. 41 (1969) 669–71, see alsoNucl. Sci. Abstr. 23 (1969) No. 19671.
Haberer, K., Stürzer, U.: Rapid estimation of radioiodine in water samples.Gas Wasserfach 109 (1968) 1287–9 (in German), see alsoNucl. Sci. Abstr. 23 (1969) No. 17348.
Ishihara, T., Iinuma, T. A., Tanaka, E., Yashiro, S.(Natl. Inst. of Radiological Science, Anagawa, Chiba-Shi, Japan): Plutonium lung monitor using a thin NaI(Tl) crystal of large area.Health Phys. 17 (1969) 669–78.
Jandl, J.(Vojenská Akad. A. Z. Brno, ČSR): Gammaspectra of an artificial radioactive fallout mixture.Chem. Listy 63 (1969) 172–7 (in Czech).
Johnson, J. E., Hartsuck, J. M.(Harvard Medical School, Peter Bent Bringham Hospital, Dep. of Surgery, Boston, Mass.): Counting of42K by Cherenkov radiation.Health Phys. 16 (1969) 755.
Kakuta, M.(Div. of Tech. Information, Japan Atomic Energy Res. Inst., Tokaimura, Japan): An evaluating method for ground surface contamination during rain.Nippon Genshiryoku Gakkaishi 9 (1967) 186–91 (in Japanese), NSJ-Tr-116, June 1968, 17 p., see alsoNucl. Sci. Abstr. 21 (1967) No. 28105 andNucl. Sci. Abstr. 22 (1968) No. 51096.
Kalninya, Z. K., Osipenko, S. A.(Acad. Sci. Lett SSR, Inst. of Biol., Riga; Acad. Sci. Ukrain SSR, Inst. for Biol. of South Sea, Sevastopol): Strontium and90Sr accumulation coefficients in lake plants and plankton.Radiobiologiya 9 (1969) 111–2 (in Russian).
Kolesnikova, A. N., Barinov, G. V., Zesenko, A. Y.(Acad. Sci. USSR, Inst. for Biol. of South Sea, Sevastopol): Radioecological investigations in the atoll Mumuroa region.Radiobiologiya 9 (1969) 139–43 (in Russian).
Marenco, A., Blanc, D., Fontan, J., Lacombe, J. P., Crozat, G.(Faculté des Sciences, Toulouse, France): Determination by chemical analysis of traces of7Be,32P,90Sr,210Pb, and210Po present in the air and in rain.Chim. Anal. (Paris) 50 (1968) 133–8 (in French), see alsoNucl. Sci. Abstr. 22 (1968) No. 35750.
Mehta, S. K.(Bhabha At. Res. Centre, Bombay, India): An electrostatic precipitator for quick estimation of plutonium-239 in air.Regional Seminar for Asia and the Far East of Radiation Protection Monitoring, Bombay, India, Dec. 9–13, 1968. SM-114/19. AED-Conf. 68-332-003, 7 p.
Moghissi, A. A., Lieberman, R., Carter, M. W., Regnier, J. E.(Southwestern Radiological Health Lab., Las Vegas, Nev.): Improved radiobioassay of urine for tritium.Health Phys. 17 (1969) 727–9.
Neal, W. T. L.(Ministry of Agriculture, London, England): A historic review of local monitoring for the contamination of land through disposal to the atmosphere.IAEA Seminar on Agricultural and Public Health Aspects of Environmental Contamination by Radioactive Materials, Vienna, Austria, Mar. 24–28, 1969 SM-117/83. AED-Conf. 69-028-030, 7 p.
Neal, W. T. L.(Ministry of Agriculture, London, England): The United Kingdom approach to environmental monitoring in relation to the discharges of radioactive wastes.IAEA Seminar on Agricultural and Public Health Aspects on Environmental Contamination by Radioactive Materials, Vienna, Austria, Mar. 24–28, 1969. SM-117-52. AED-Conf. 69-028-031, 14 p.
Paulus, K.(Bundesforschungsanstalt für Lebensmittelfrischhaltung, Karlsruhe): Decontamination of137Cs- and85Sr-contaminated leaf-vegetable, Part 1. Influence of treatment temperature and time.Z. Lebensm. Untersuch. Forsch. 138 (1969) 329–34 (in German).
Paulus, K.(Bundesforschungsanstalt für Lebensmittelfrischhaltung, Karlsruhe): Decontamination of137Cs- and85Sr-contaminated leaf-vegetable. Part 2. Influence of additions and of combined treatments.Z. Lebensm. Untersuch. Forsch. 139 (1969) 7–12 (in German).
Quentin, K. E., Schreitzenmayr, G.(TH, Inst. für Wasserchemie, und Chemie Balneol., München): Analysis of radon on mineral water and in balneological water.Z. Lebensm. Untersuch. Forsch. 139 (1969) 87–96 (in German).
Shearer, S. D., Sill, C. W.(Southwestern Radiological Health Lab., NCRH U.S. Public Health Service, Las Vegas, Nev.; Health Services Lab., U. S. Atomic Energy Comm., Idaho Falls, Idaho): Evaluation of atmospheric radon in the vicinity of uranium mill tailings.Health Phys. 17 (1969) 77–88.
Shuping, R. E., Phillips, C. R., Moghissi, A. A.(South-eastern Radiological Health Lab., Montgomery, Ala.): Low-level counting of environmental krypton-85 by liquid scintillation.Anal. Chem. 41 (1969) 2082–3.
Sill, C.W., Williams, R. L.(Health Services Lab., U. S. Atomic Energy Comm., Idaho Falls, Idaho): Radiochemical determination of uranium and the transuranium elements in process solution and environmental samples.Anal. Chem. 41 (1969) 1624–32.
Sodd, V. J., Scholz, K. L.(National Center for Radiological Health, Cincinnati, Ohio): Analysis of tritium in water: a collaborative study.J. Ass. Offic. Anal. Chem. 52 (1969) 90–3, see alsoNucl. Sci. Abstr. 23 (1969) No. 9338.
Strohal, P., Lulić, S., Jelisavčič, O.(Institute ‘Rudjer Bošković’, Rovinj, Yugoslavia): The loss of cerium, cobalt, manganese, protactinium, ruthenium and zinc during dry ashing of biological material.Analyst 94 (1969) 678–80.
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Bock-Werthmann, W., Bujdosó, E. Bibliography section. J. Radioanal. Chem. 5, 445–472 (1970). https://doi.org/10.1007/BF02513861
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DOI: https://doi.org/10.1007/BF02513861