Project detail

Theoretic and spectroscopic study of organosilicone molecules and their fragmentation

Duration: 01.01.2007 — 31.12.2008

Funding resources

Ministerstvo školství, mládeže a tělovýchovy ČR - KONTAKT

- part funder (2007-01-01 - 2008-12-31)

On the project

Cílem projektu je studium fragmentace organosilikonových molekul v FR plazmatu. Kromě experimentální práce budou probíhat ab inition výpočty molekulárních stavů organosilikonů a jejich fragmentů. Výsledky práce budou využity v oblasti plazmochemické depozice tenkých vrstev.

Description in English
The main goal of the project is the study of organosilicone molecules fragmentation in RF plasma. Besides the experimental work the numeric ab initio simulation of the organosilicone molecular states and their fragments will be completed. The results will be used in the field of plasma deposition of thin layers.

Keywords
organosilikonové molekuly, fragmentace, plasmatická depozice

Key words in English
organosilicone molecules, fragmentation, plasma deposition

Mark

2-07-27

Default language

Czech

People responsible

Krčma František, prof. RNDr., Ph.D. - principal person responsible

Units

Faculty of Chemistry
- beneficiary (2007-01-11 - not assigned)

Results

KRČMA, F.; FLAMÍKOVÁ, K.; STUDÝNKA, J. Fragmentation of Tetravinyl Silane in Pulsed RF Discharge. In Proceedings of 17th Symposium on Application of Plasma Processes. Bratislava: UK Bratislava, 2009. p. 285-286. ISBN: 978-80-89186-45-7.
Detail

STRUŽÍNSKÝ, O.; SAHÁNKOVÁ, H.; KRČMA, F.; CAYAO, D. Fragmentation of Tetravinylsilane by Electron Impact. ISPC XIX - Book of abstracts. Bochum: UPAC, 2009. p. 317-317.
Detail

BRITES, V.; CHAMBAUD, G.; HOCHLAF, M.; KOČIŠEK, J.; CAYAO, D.; MATĚJČÍK, Š.; KRČMA, F. Ionic Chemistry of Tetravinylsilane Cation (TVS+) Formed by Electron Impact: Theory and Experiment. JOURNAL OF PHYSICAL CHEMISTRY A, 2009, vol. 113, no. 23, p. 6531-6536. ISSN: 1089-5639.
Detail

STRUŽÍNSKÝ, O.; SAHÁNKOVÁ, H.; KRČMA, F.; CAYAO, D.; MATĚJČÍK, Š. Fragmentation of Tetravinylsilane by Electron Impact. Proceedings of ISPC XIX. Bochum: UPAC, 2009. p. 1850-1 (1850-4 p.)
Detail