Properties of powders of the system Sn(IV)-Sb-O and the resistivity of resistive thick films based on them

1. A. I. Antonyan, V. G. Grebenkina, and T. P. Potashnikova, “Thick-film variable resistors based on doped tin dioxide,” Tekh. Sred. Svyazi, Ser. Tekh. Proizvod. Oborud.2, 53–58 (1980).

   Google Scholar 

2. A. I. Antonyan, M. D. Smolin, V. G. Grebenkina, et al., Thick-Walled Variable Resistors [in Russian], Naukova Dumka, Kiev (1980).

   Google Scholar 

3. A. A. Nemodruk, Analytical Chemistry of Antimony [in Russian], Nauka, Moscow (1978).

   Google Scholar 

4. R. G. Ainshtein, L. A. Bespamyatnova, V. P. Komarov, et al., “High-temperature glass as the matrix element in silver-palladium resistors,” Élektron. Promst., No. 2, 26–28 (1976).

5. D. Pyke, R. Reid, and R. Tilley, “Structures of tin oxide-antimony oxide catalysts,” J. Chem. Soc. Faraday Trans. I,76, 1174–1182 (1980).

   Google Scholar 

6. T. Bichall, R. Bouchard, and R. Shanon, “An investigation of the Sn_1−xSb_xO₂ system by Mössbauer spectroscopy,” Can. J. Chem.,15, No. 3, 2077–2081 (1973).

   Google Scholar 

7. M. V. Vlasova, D. E. Dyshel', and N. G. Kokazei, “Formation of disperse particles during the heat treatment of mixtures of hydroxides of tin and antimony,” Izv. Akad. Nauk SSSR, Neorg. Mater.,26, No. 7, 1486–1490 (1990).

   Google Scholar 

8. N. N. Kolosova, E. M. Baikova, S. P. Teslenko, et al., “Use of doped tin dioxide for thick-film resistors,” in: Status and Prospects of the Development of Methods for Producing and Analyzing Ferritic, Ferroelectric, Piezoelectric, Capacitive, and Resistive Materials and the Raw Materials to Make Them: Summary of Documents of an All-Union Conference (Donetsk, Oct. 11–13, 1983). VNII Reaktivelektron, Donetsk (1983), Vol. 1, p. 137.

   Google Scholar 

9. P. A. Cox, R. G. Egdell, C. Harding, et al., “Surface properties of antimony doped tin(IV) oxide: a study by electron spectroscopy,” Surf. Sci.,123, No. 2/3, 179–203 (1982).

   Google Scholar 

10. D. E. Dyshel', B. M. Rud', M. D. Smolin, and I. A. Stoyanov, “Electrical conductivity of granular films of doped tin dioxide and glass,” Radiotekh. Élektron.,32, No. 10, 2214–2216 (1988).

    Google Scholar 

11. M. K. Basu and R. V. Lele, “Effect of reducing atmosphere on SnO₂-Sb₂O₅-based semiconducting glaze,” Am. Ceram. Soc. Bull.,53, No. 6, 488–489 (1974).

    Google Scholar 

12. D. B. Binns, “Conducting glazes,” Trans. Brit. Ceram. Soc.,73, No. 1, 7–17 (1974).

    Google Scholar 

13. J. Dearden, “High value high voltage resistors,” Electron. Compon.,8, No. 3, 259–262 (1967).

    Google Scholar 

14. J. Dearden, “Advances in high voltage resistor design,” Electronics,132, 26–30 (1978).

    Google Scholar 

15. D. E. Dyshel', B. M. Rud', and A. I. Tereshin, “Pastes for superhigh-resistance resistors,” Tekh. Sred. Svyazi, Ser. Tekh. Proizvod. Oborud.4, 52–56 (1990).

    Google Scholar 

Download references