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Russian Chemical Reviews, 2001, Volume 70, Issue 4, Pages 321–332
DOI: https://doi.org/10.1070/RC2001v070n04ABEH000603 (Mi rcr749) 		 
This article is cited in 29 scientific papers (total in 29 papers)

Mechanism of thermal decomposition of silanes

A. A. Onischuk, V. N. Panfilov

Institute of Chemical Kinetics and Combustion, Siberian Branch of the Russian Academy of Science
English full-text Citations (29) Russian version article
DOI: https://doi.org/10.1070/RC2001v070n04ABEH000603
Abstract: Data on the mechanism of thermal decomposition of silanes are generalised. The main stages of the process are distinguished and characterised. Attention is concentrated on the elementary homogeneous reactions, deposition of silicon from the gas phase and formation of aerosols. Various models of formation of aerosols are considered. The results of theoretical and experimental investigations of this process are discussed. Data on the chemical composition of the solid product of silane pyrolysis (wall deposit and aerosol particles) are presented. It is noted that the hydrogen content in the solid product varies over wide limits. The bibliography includes 211 references.
Received: 10.05.2000
Bibliographic databases:
Document Type: Article
UDC: 541.127:546.281
Language: English
Original paper language: Russian


Citation: A. A. Onischuk, V. N. Panfilov, “Mechanism of thermal decomposition of silanes”, Usp. Khim., 70:4 (2001), 368–381; Russian Chem. Reviews, 70:4 (2001), 321–332
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  • https://doi.org/10.1070/RC2001v070n04ABEH000603
  • https://www.mathnet.ru/eng/rcr/v70/i4/p368
    • This publication is cited in the following 29 articles:
    1. Jianpeng Wu, Xiangjun Meng, Xingang Li, Xiankui Yang, Xin Li, Yafeng Wang, Lin He, ACS Omega, 2025  crossref
    2. Chenyang Zheng, Na Xie, Xin Liu, Lianqin Wang, Weikang Zhu, Yabiao Pei, Runfei Yue, Haotian Liu, Shuoyao Yin, Jie Yao, Junfeng Zhang, Yan Yin, Michael D. Guiver, Journal of Membrane Science, 690 (2024), 122195  crossref
    3. Zhinan Han, Joseph F. Wild, Justin J. Chen, Yuan Yang, Energy Mater Adv, 5 (2024)  crossref
    4. Chin K.-Y., Shiue A., Wu Y.-J., Chang Sh.-M., Li Y.-F., Shen M.-Yu., Leggett G., Sustainability, 14:2 (2022), 700  crossref  isi
    5. Byeon D.-S., Choi Y., Cho Ch., Yoon D., Lee K., Baik S., Ko D.-H., J. Korean Phys. Soc., 78:8 (2021), 712–718  crossref  isi  scopus
    6. Clark V.H.J., Yurchenko S.N., Phys. Chem. Chem. Phys., 2021  crossref  isi
    7. Lee Y., Han H.N., Kim W., Hwang N.M., Electron. Mater. Lett., 16:4 (2020), 385–395  crossref  isi  scopus
    8. Attia N.F., Nour M., Hassan M., Mohamed G., Oh H., Mahmoud M., J. Thermoplast. Compos. Mater., 2020, 0892705720935936  crossref  isi  scopus
    9. Petra R., Oo S.Z., Tarazona A., Cernansky R., Reynolds S.A., Khokhar A.Z., Mittal V., Thomson D.J., Politi A., Mashanovich G.Z., Reed G.T., Chong H.M.H., Opt. Express, 27:11 (2019), 15735–15749  crossref  isi
    10. Zhang P., Chen G., Wang W., Zhang G., ECS J. Solid State Sci. Technol., 8:10 (2019), P615–P621  crossref  isi  scopus
    11. Wyller G.M., Preston T.J., Klette H., Mongstad T., Marstein E.S., J. Cryst. Growth, 498 (2018), 315–327  crossref  isi  scopus
    12. Zhang P., Duan J., Chen G., Li J., Wang W., Sol. Energy, 175:1, SI (2018), 44–53  crossref  isi  scopus
    13. Li X.-G., Xiao W.-D., Ind. Eng. Chem. Res., 55:17 (2016), 4887–4896  crossref  isi  scopus
    14. He R., Day T.D., Sparks J.R., Sullivan N.F., Badding J.V., Adv. Mater., 28:28 (2016), 5939+  crossref  isi  scopus
    15. William C. Breneman, Stein Julsrud, Solar Silicon Processes, 2016, 199  crossref
    16. Ramos A., Filtvedt W.O., Lindholm D., Ramachandran P.A., Rodriguez A., del Canizo C., J. Cryst. Growth, 431 (2015), 1–9  crossref  isi  elib  scopus
    17. Sibeko M.A., Luyt A.S., Polym. Bull., 71:3 (2014), 637–657  crossref  isi  elib  scopus
    18. Wu Sh.-Y., Lee Yu.-M., Wu J.-Sh., Lin M.-Ch., Int. J. Quantum Chem., 114:4 (2014), 278–288  crossref  isi  elib  scopus
    19. Werner O. Filtvedt, Trygve Mongstad, Arve Holt, Morten Melaaen, Hallgeir Klette, International Journal of Chemical Reactor Engineering, 11:1 (2013), 57  crossref
    20. Victor Kessler, Devendraprakash Gautam, Tim Hülser, Mathias Spree, Ralf Theissmann, Markus Winterer, Hartmut Wiggers, Gabi Schierning, Roland Schmechel, Adv Eng Mater, 15:5 (2013), 379  crossref
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