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Historical developments of hydrothermal works in Japan, especially in ceramic science

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Historical developments of hyrothermal works especially hydrothermal synthesis and hydrothermal corrosion in Japan are described. And also, some major activities of important Japanese researchers are given.

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References

  1. K. F. E. SCHAFHALT, GALEHRTE ANGEIGEN BAYER ACAD. 20 (557) (1845) Ref. 3.

  2. G. SPEZIA,ALTI. ACD. SCI. TORINO, 40 (1905) 254; R. A. LAUDISE and J. W. NIELSON, in “Solid State Physics, Advances in Research and Application,” edited by F. Seitz, and D. Turnbull (Academic Press, 1961), Vol. 12, 149 pages.

  3. W. EITEL, SILICATE SCIENCE, HYDROTHERMAL SILICATE SYSTEMS (ACADEMIC PRESS, 1966) VOL. IV, 617 PAGES.

  4. A. RABENAU, ANGEW. CHEM. INT. ED. ENGL. 24 (1985) 1026.

    Article  Google Scholar 

  5. K. BYRAPPA, AND M. YOSHIMURA, Handbook of Hydrothermal Technology (Noyes Publication 2001) 870 pages.

  6. T. KATSURAI, SCI. PAPERS INST. OF PHYS. CHEM. RES. 5 (1926) 635.

  7. S. NAGAI, KOGYO KAGAKU ZASSHI 34 (1931) 619.

    Google Scholar 

  8. S. YAMASAKI AND T. TITANI, Bull. Chem. Soc. Japan 9 (1934) 501.

  9. S. NAGAI AND T. SUZUKI, Kogyo Kagaku Zasshi, 38 (8) (1935) 859.

  10. K. MURAKAMI, REVIEW OF MATERIALS CHEMISTRY, PART I, 1, ESPECIALLY 5, EDITION BY S. NAGAI AND KYORITSU SUPPAN K. K. (1944).

  11. M. KOIZUMI, FOR EXAMPLE, CHEM. CHEM. INDU. 19 (2) (1966) 168, ibid, 21 (10) (1968) 1242, J. Clay Sci. Soc. of Japan 28 (1983) 60.

  12. S. NAGAI AND M. SEKIYA Yogyo Kyokai Shi 43 (1948) 631.

    Google Scholar 

  13. J. YAMASAKI, BULL. CHEM. SOC. JAPAN 74 (6) (1953) 457; Kogyo Kagaku Zasshi, 54 (11) (1951) 704.

  14. R. KIYOURA AND Y. ITO, Yogyo Kyokai Shi 60 (668) (1952) 53, 60 (673) (1952) 264; 61 (687) (1953) 415.

  15. Y. OTSUKA AND C. KATO, Nippon Kagaku Zasshi 73 (2) (1952) 146, Kogyo Kagaku Zasshi 59 (11) (1956) 1340.

  16. M. KUNITOMI AND H. SAITO, Kogyo Kagaku Zasshi 59 (11) 1235 55 (7) (1952) 415; 61 (5) (1958) 545.

  17. T. NODA, H. SAITO ET AL., Kogyo Kagaku Zasshi 59 (6) (1956) 596.

    CAS  Google Scholar 

  18. T. NODA ET AL., Bull. Chem. Soc., Japan, 39 (7) (1966) 1456.

  19. A. C. WALKER AND E. BUEHLER, Ind. Eng. Chem., 42 (7) (1950) 1369.

  20. C. WALKER, IND. ENG. CHEM. 46 (8) (1954) 1670.

    CAS  Google Scholar 

  21. T. NODA, J. JAPANESE ASSO. CRYS. GROWTH, 3 (4) (1976) 1.

  22. G. OHARA, YOGYO KYOKAI SHI 77 (4) (1969) 111.

    CAS  Google Scholar 

  23. S. TAKI, J. JAPANESE ASSOC. CRYS. GROWTH 16 (2) (1989) 162.

    CAS  Google Scholar 

  24. S. TAKI, M. KUNITOMI, J. ASAHARA AND T. OSAWA Kogyo Kagaku Zasshi 59 (11) (1956) 1337.

    CAS  Google Scholar 

  25. F. IWASAKI AND H. IWASAKI, J. Japanese Assoc. Crys. Growth 25 (1) (1998) 66, (2) (1998) 126, (4) (1998) 178, (5) (1998) 247.

  26. J. ASAHARA, K. NAGAI AND S. HARADA, S. Somiya, edited by in Proc. 1st International Symposium on Hydrothermal Reactions, (1983) p. 430.

  27. H. HAGIHARA, ET AL., Bull. Kobayashi Institute of Physical Research 6 (4) (1956) 236; A. TAKEDA, ibid. 7 (4) (1957) 237; 8 (1) (1958) 82.

  28. M. KUNITOMI, T. KUNUGI et al., Kogyo Kagaku Zasshi, 69 (9) (1966) 1896.

  29. T. NODA ET AL., Bull Chem. Soc. Japan 39 (7) (1966) 1456.

    CAS  Google Scholar 

  30. S. SAITO AND T. TAKEI, Japan Soc. J. Powder Powder Metall. 13 (2) (1966) 50.

    Google Scholar 

  31. S. NOBUOKA AND K. ANDO, Kogyo Kagaku Zasshi 69 (10) (1966) 1899.

    CAS  Google Scholar 

  32. T. MITSUDA, CERAMICS, JAPAN 15 (3) (1980) 184.

    CAS  Google Scholar 

  33. T. OOTA, H. SAITO AND I. YANAI, J. Cryst. Growth, 46, (1979) 331.

  34. W. ISHIBASHI, JAPAN SOC. OF POWDER POWDER METALLURGY, 24 (4) (1977) 107; A. KUMAR and R. ROY, J. Mater. Res., 3 (6) 1323 (1988); J. Am. Ceram. Soc., 72, (1989) 354.

  35. R. KONDO, K. LEE AND M. DAIMON, Yogyo Kyokai Shi, 84 (11) (1976) 57, ibid, 85 (1) (1977) 14, ibid., 85 (6) (1977) 281.

  36. K. MATSUOKA, ET AL., Rept. Of Res. Labor. Hydrotherm. Chem., 2 (15) (1978) 45.

  37. H. MITSUSHIO AND K. MATSUOKA, Rept. Res. Lab. of hydrotherm. Chem., 2 (9–15) (1978) 36.

  38. S. SOMIYA (ED.) THE FIRST INTERNATIONAL SYMPOSIUM ON HYDROTHERMAL REACTIONS, 1982, 965 PAGES, GAKUJUTSU BUNKEN FUKYUKAI (1983).

  39. (A) S. I. HIRANO, ET AL., Yogyo Kyokai Shi, 93 (9) (1985) 529, (b) Idem., J. Japanese Association of Crystal Growth, 16 (2) (1989) 183.

  40. K. H. LEE, E. ASAGA, T. ICHIHARA AND M. DAIMON, Yogyo Kyokai Shi 95 (7) (1987) 736.

    CAS  Google Scholar 

  41. K. YANAGISAWA, M. NISHIOKA AND N. YAMASAKI, Am. Ceram. Soc. Bull. 64 (12) (1985) 1563.

    CAS  Google Scholar 

  42. M. YOSHIMURA ET AL., J. Ceram. Soc. Japan, Intl. edition, 97 (1989) 4.

  43. M. YOSHIMURA ET AL., Japanese J. Appl. Phys., 28 (11) (1989) L.2007.

  44. M. YOSHIMURA ET AL., MRS Bull. 25 (9) (2000) 17 and p. 419 in Ref. 54.

  45. T. SEKIGUCHI AND N. SAKAGAMI, J. Japanese Assoc. Cryst. Growth 26 (4) (1999) 203.

    CAS  Google Scholar 

  46. K. IOKU, ET AL., Nippon Kagaku Kaishi, No. 9 (1988) 1565.

    Google Scholar 

  47. S. MATSUMOTO, J. JAPANESE ASSOC. CRYST. GROWTH, 16 (2) (1989) 191.

  48. Y. SHIBASAKI, SHIN SOZAI, ED. S. SOMIYA (Uchida Rokakuho Publishers,1990) p. 95.

  49. S. SOMIYA (ED.), HYDROTHERMAL REACTIONS FOR MATERIALS SCIENCE AND ENGINERING, (ELSEVIER, 1989) 505 PAGES.

  50. T. MORIYOSHI AND N. YAMASAKI, et al., Eds.

  51. K. YANAGISAWA AND Q. FENG, (Eds)., Proceedings of Joint ISHR and ICSCTR, (2000) 575 pages.

  52. K. HIDAKA AND K. ABE, et al., in ref. 50, 362.

  53. T. SASAKI AND Y. MATSUMOTO, et al., Nippon Kagaku Kaishi 10 (1991) 1413.

    Google Scholar 

  54. S. H. FENG, J. S. CHEN AND Z. SHI (Eds)., Hydrothermal Reactions and Techniques, World Scientific Publishing Co. Pte. Ltd. (2003) 537 pages.

  55. K. YANAGISAWA, ET AL., 3 in Ref. 54.

  56. N. YAMASAKI, ET AL., For example 193 in Ref. 54.

  57. M. YOSHIMURA, ET AL., Experimat '87 Bordeaux, Nov. 24–27 (1987).

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Authors and Affiliations

  1. Professor Emeritus, Tokyo Institute of Technology, 3-7-19 Seijo, Setagaya, Tokyo, 157-0066, Japan

    S. Somiya

  2. Teikyo University of Science and Technology, 3-7-19 Seijo, Setagaya, Tokyo, 157-0066, Japan

    S. Somiya

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Somiya, S. Historical developments of hydrothermal works in Japan, especially in ceramic science. J Mater Sci 41, 1307–1318 (2006). https://doi.org/10.1007/s10853-006-7300-6

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