Home / Publications / Advances in organoelement chemistry for the development of new materials

Advances in organoelement chemistry for the development of new materials

Pavel Arkad'evich Storozhenko 1
Pavel Arkad'evich Storozhenko
Galina Igorevna Shcherbakova 1
Galina Igorevna Shcherbakova
10.1016/j.mencom.2014.04.001
Published 2014-04-16
Focus articleVolume 24, Issue 3, 133-137
9
Share
Cite this
GOST
 | 
Cite this
GOST Copy
Storozhenko P. A., Shcherbakova G. I. Advances in organoelement chemistry for the development of new materials // Mendeleev Communications. 2014. Vol. 24. No. 3. pp. 133-137.
GOST all authors (up to 50) Copy
Storozhenko P. A., Shcherbakova G. I. Advances in organoelement chemistry for the development of new materials // Mendeleev Communications. 2014. Vol. 24. No. 3. pp. 133-137.
RIS
 | 
Cite this
RIS Copy
TY - JOUR
DO - 10.1016/j.mencom.2014.04.001
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2014.04.001
TI - Advances in organoelement chemistry for the development of new materials
T2 - Mendeleev Communications
AU - Storozhenko, Pavel Arkad'evich
AU - Shcherbakova, Galina Igorevna
PY - 2014
DA - 2014/04/16
PB - Mendeleev Communications
SP - 133-137
IS - 3
VL - 24
ER -
BibTex
 | 
Cite this
BibTex (up to 50 authors) Copy
@article{2014_Storozhenko,
author = {Pavel Arkad'evich Storozhenko and Galina Igorevna Shcherbakova},
title = {Advances in organoelement chemistry for the development of new materials},
journal = {Mendeleev Communications},
year = {2014},
volume = {24},
publisher = {Mendeleev Communications},
month = {Apr},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2014.04.001},
number = {3},
pages = {133--137},
doi = {10.1016/j.mencom.2014.04.001}
}
MLA
Cite this
MLA Copy
Storozhenko, Pavel Arkad'evich, and Galina Igorevna Shcherbakova. “Advances in organoelement chemistry for the development of new materials.” Mendeleev Communications, vol. 24, no. 3, Apr. 2014, pp. 133-137. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2014.04.001.
Views / Downloads
1 / 1

Abstract

With the development of organoelement chemistry, polymer-to-ceramic technology based on the pyrolysis of organoelement ceramics-forming polymers (oligomers) acquires increasing interest. The organoelement ceramics-forming polymers are primarily organosilicon polymers (oligomers) – poly(oligo) carbosilanes and oligocarbosilanes modified by refractory metals (Zr, Hf and Ta), on whose pyrolysis carbide ceramics are formed. The use of polycarbosilanes and metal-containing carbosilanes in ceramics composite tech- nology makes it possible to obtain binary and more complicated carbide ceramics with the uniform distribution of the elements at the molecular level and with the controlled structure, which allows one to enhance the quality of the final material.

References

1.
F. Christin, Proc. 5th International Conference on High-Temperature Ceramic Matrix Composites (HTCMC 5), Seattle, Washington, 2004, p. 477.
3.
10.1016/j.mencom.2014.04.001_bib0015
Yao
Gongneng Cailiao (J Funct. Mater.), 2008
4.
10.1016/j.mencom.2014.04.001_bib0020
Li
Aeronaut. Mater.), 2006
5.
10.1016/j.mencom.2014.04.001_bib0025
Zou
Fuhe Cailiao Xuebao (Acta Mater Compos. Sinica), 2005
6.
10.1016/j.mencom.2014.04.001_bib0030
Wang
Fuhe Cailiao Xuebao (Acta Mater Compos. Sinica), 2004
7.
10.1016/j.mencom.2014.04.001_bib0035
Zheng
Fuhe Cailiao Xuebao (Acta Mater Compos. Sinica), 2003
8.
Nano-structured metal-containing polymer precursors for high temperature non-oxide ceramics and ceramic fibers—syntheses, pyrolyses and properties
Tsirlin A.M., Shcherbakova G.I., Florina E.K., Popova N.A., Gubin S.P., Moroz E.M., Riedel R., Kroke E., Steen M.
Journal of the European Ceramic Society, 2002
9.
P. A. Storozhenko, A.M. Tsirlin, G.I. Shcherbakova and E. K. Florina, Abstracts of International Workshop ‘Polymer Materials of the XXI Century’, International Chemical Assembly. ICA-2006, Moscow, 2006, p. 47.
10.
Magnetic ceramics based on nanoparticles of cobalt and silicon oxide obtained from polycarbosilane
Popkov O.V., Potapova E.A., Yurkov G.Y., Ovchenkov E.A., Shcherbakova G.I., Zhigalov D.V.
Inorganic Materials: Applied Research, 2012
11.
Synthesis and Characterization of SiC(Ti) Ceramics Derived from a Hybrid Precursor of Titanium-Containing Polycarbosilane
Yu Z., Zhan J., Zhou C., Yang L., Li R., Xia H.
Journal of Inorganic and Organometallic Polymers and Materials, 2011
12.
Synthesis of Polyyttriocarbosilane and its Conversion to Yttrium-Containing Ceramic
Yang D., Yu Y., San H., Song Y.
Journal of Inorganic and Organometallic Polymers and Materials, 2011
13.
P. A. Storozhenko, A.M. Tsirlin, G.I. Shcherbakova, E.K. Florina, Yu. Yurkov and S. P. Gubin, in Kosmicheskii vyzov XXI veka. Per- spectivnye materialy i tekhnologii dlya raketno-kosmicheskoi tekhniki (Space Challenges in the XXI Century. Novel Materials and Technologies for Space Rockets and Space Development), eds. A. A. Berlin and I. G. Assovskii, Torus Press, Moscow, 2007, vol. 3, p. 32.(in Russian).
14.
G. I. Shcherbakova, P.A. Storozhenko, A.M. Tsirlin, E.K. Florina, Yu. Yurkov and S. P. Gubin, in Kosmicheskii vyzov XXI veka. Per- spectivnye materialy i tekhnologii dlya raketno-kosmicheskoi tekhniki (Space Challenges in the XXI Century. Novel Materials and Technologies for Space Rockets and Space Development), eds. A. A. Berlin and I. G. Assovskii, Torus Press, Moscow, 2007, vol. 3, p. 183.(in Russian).
15.
G. I. Shcherbakova, D.V. Sidorov, M.S. Varfolomeev, D.V. Zhigalov and M. Kh. Blokhina, Vse Materialy. Entsiklopedicheskii Spravochnik (All the Materials. Encyclopaedic Reference Book), Nauka i Tekhnologii, Moscow, 2010, vol. 11, p. 11.(in Russian).
16.
Crosslinked Polycarbosilanes. Synthesis and Properties
Tsumura M., Iwahara T.
Polymer Journal, 2000
17.
Some thermal studies of polysilanes and polycarbosilanes
Shukla S.K., Tiwari R.K., Ranjan A., Saxena A.K., Mathur G.N.
Thermochimica Acta, 2004
18.
Use of Blended Precursors of Poly(vinylsilane) in Polycarbosilane for Silicon Carbide Fiber Synthesis with Radiation Curing
Narisawa M., Idesaki A., Kitano S., Okamura K., Sugimoto M., Seguchi T., Itoh M.
Journal of the American Ceramic Society, 1999
19.
Electroreductive Synthesis and Characterization of Polycarbosilanes Containing Oligosilane Units
Ishifune M., Kogai Y., Iijima H., Kera Y., Yamashita N., Kashimura S.
Journal of Macromolecular Science - Pure and Applied Chemistry, 2004
20.
10.1016/j.mencom.2014.04.001_bib0100
Zheng
Gaofenzi Cailiao Kexue Yu Gongcheng (Polym Mater. Sci. Eng.), 2005
21.
10.1016/j.mencom.2014.04.001_bib0105
Cheng
Guofang Keji Daxue Xuebao (J National Univ. Defense Technol.), 2004
22.
10.1016/j.mencom.2014.04.001_bib0110
Cheng
Cailiao Gongcheng (J Mater. Eng.), 2005
23.
10.1016/j.mencom.2014.04.001_bib0115
Cheng
Gaofenzi Cailiao Kexue Yu Gongcheng (Polym Mater. Sci. Eng.), 2005
24.
Structure and properties of polycarbosilane synthesized from polydimethylsilane under high pressure
Cheng X., Xie Z., Song Y., Xiao J., Wang Y.
Journal of Applied Polymer Science, 2005
25.
10.1016/j.mencom.2014.04.001_bib0125
Xue
Guofang Keji Daxue Xuebao (J National Univ. Defense Technol.), 2006
26.
10.1016/j.mencom.2014.04.001_bib0130
Xie
Guofang Keji Daxue Xuebao (J National Univ. Defense Technol.), 2006
27.
10.1016/j.mencom.2014.04.001_bib0135
Xue
Xiandai Huagong (Mod Chem. Ind.), 2006
28.
10.1016/j.mencom.2014.04.001_bib0140
Nguyen
Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi (J Ceram. Soc. Jpn.), 2006
29.
CONTINUOUS SILICON CARBIDE FIBER OF HIGH TENSILE STRENGTH
Yajima S., Hayashi J., Omori M.
Chemistry Letters, 1975
30.
Synthesis of Continuous Sic Fibers with High Tensile Strength
YAJIMA S., OKAMURA K., HAYASHI J., OMORI M.
Journal of the American Ceramic Society, 1976
31.
Synthesis of continuous silicon carbide fibre with high tensile strength and high Young's modulus
Yajima S., Hasegawa Y., Hayashi J., Iimura M.
Journal of Materials Science, 1978
32.
A. M. Tsirlin, T.V. Fedorova, E.K. Florina, N.A. Popova, V.G. Gerlivanov and M. V. Kirko, RF Patent 2108348, 1996.(Byull. Izobretenii, no. 10, 10.04.1998).
33.
A. M. Tsirlin, G.I. Shcherbakova, P.A. Storozhenko, D.V. Sidorov, D.V. Zhigalov, M. Kh. Blokhina and M. S. Varfolomeev, RF Patent 2410401, 2009.(Byull. Izobretenii, no. 3, 27.01.2011).
34.
P. A. Storozhenko, G.I. Shcherbakova, A.N. Ozerin, N.V. Voronina, M. Yu. Mitrofanov, D.V. Sidorov, D.V. Zhigalov, M. Kh. Blokhina, M.G. Kuznetsova, M.V. Polyakova and G. Yu. Yurkov, Nanotekhnika, 2009, 4 (20), 7.(in Russian).
35.
10.1016/j.mencom.2014.04.001_bib0175
Storozhenko
Membrany. Ser. Kriticheskie Tekhnologii, 2005
36.
Reactivity and molecular structure of silicon carbide fibres derived from polycarbosilanes
Schreck P., Vix-Guterl C., Ehrburger P., Lahaye J.
Journal of Materials Science, 1992
37.
10.1016/j.mencom.2014.04.001_bib0185
Hu
Acta Met. Sinica, 1999
38.
10.1016/j.mencom.2014.04.001_bib0190
Hu
Acta Met. Sinica, 1999
39.
10.1016/j.mencom.2014.04.001_bib0195
Xie
Trans. Nonferrous Met. Soc. China, 2000
40.
Active Filler (Aluminum–Aluminum Nitride) Controlled Polycarbosilane Pyrolysis
Xie Z., Wang S., Chen Z.
Journal of Inorganic and Organometallic Polymers and Materials, 2006
42.
Processing of silicon carbide ceramics using chemically modified polycarbosilanes
Okuzaki S., Iwamoto Y., Kondoh S., Kikuta K., Hirano S.
Journal of Materials Research, 1999
43.
10.1016/j.mencom.2014.04.001_bib0215
Yu
Trans. Nonferrous Met. Soc. China, 2004
44.
Synthesis and Lithographic Patterning of Polycarbosilanes with Pendant Cobalt Carbonyl Clusters
Greenberg S., Clendenning S.B., Liu K., Manners I., Aouba S., Ruda H.E.
Macromolecules, 2005
45.
10.1016/j.mencom.2014.04.001_bib0225
Chen
Acta Polym. Sinica, 2005
46.
K. Okamura, M. Sato and Y. Hasegawa, in Handbook of Composites, Strong Fibers, eds. W. Watt and B. V. Perov, Elsevier, Amsterdam, 1985, vol. 1, p. 535.
47.
S. Yajima, K. Okamura, Y. Hasegawa and T. Yamamura, EP Patent 1980/0030105, filed 1985-04-10.
48.
Structure and properties of polytitanocarbosilane as the precursor of SiC-TiC fibre
Song Y., Feng C., Tan Z., Lu Y.
Journal of Materials Science Letters, 1990
49.
Fabrication and Mechanical Properties of New Improved Si-M-C-(O) Tyranno Fiber
Kumagawa K., Yamaoka H., Shibuya M., Yamamura T.
Mechanical Properties and Performance of Engineering Ceramics and Composites IV
50.
Study on oxidation resistance of Tyranno/C composite fiber
Xiao Y., Che J., Ji F.
Materials Chemistry and Physics, 2004
51.
A. M. Tsirlin, G.I. Shcherbakova, E.K. Florina, E.A. Izmailova, B.I. Shemaev, M.V. Kirko, P.A. Storozhenko and N. K. Efimov, RF Patent 2258715, 2004.(Byull. Izobretenii, no. 23, 2005.08.05).
52.
P. A. Storozhenko, G.I. Shcherbakova, A.M. Tsirlin, E.K. Florina, E.A. Izmailova, A.A. Savitskii, M.G. Kuznetsova, T.M. Kuznetsova, I.V. Stolyarova, G. Yu. Yurkov and S. P. Gubin, Inorg. Mater., 2006, 42, 1159.(Neorg. Mater., 2006, 42, 1269).
53.
G. I. Shcherbakova, M. Kh. Blokhina, D.V. Zhigalov, D.V. Sidorov, P.A. Storozhenko, M.G. Kuznetsova, A.E. Chernyshev, A.I. Drachev and G. Yu. Yurkov, Book of Abstracts of XI Andrianov Conference ‘Organosilicon Compounds. Synthesis, Properties, Applications’, Moscow, 2010, p. 134.
54.
P. A. Storozhenko, G.I. Shcherbakova, A.M. Tsirlin, E.K. Florina, I.A. Matskevich, A.E. Chernyshov, A.S. Murkina, M.S. Varfolomeev, S.P. Gubin and G. Yu. Yurkov, Nanotekhnika, 2008, 2 (14), 25.(in Russian).
55.
M. Kh. Blokhina, G.I. Shcherbakova, P.A. Storozhenko, D.V. Zhigalov, D.V. Sidorov, I.A. Timofeev and P. A. Timofeev, Kompozity i Nano- struktury, 2012, no. 4, 2 (in Russian).
56.
Preceramic nanohafniumoligocarbosilanes
Shcherbakova G.I., Blokhina M.K., Storozhenko P.A., Zhigalov D.V., Sidorov D.G., Apukhtina T.L., Varfolomeev M.S., Sidorov D.V., Kuznetsova M.G., Yurkov G.Y.
Inorganic Materials, 2014