Detailed Information on Publication Record

KLÁN, Petr and Vladimír CÍRKVA. Microwave Photochemistry. In Microwaves in Organic Synthesis, A. Loupy (Ed.). 1st ed. Chichester: John Wiley, 2002, p. 463-486. Wiley-VCH. ISBN 3-527-30514-9.

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Basic information
Original name	Microwave Photochemistry
Authors	KLÁN, Petr (203 Czech Republic, guarantor) and Vladimír CÍRKVA (203 Czech Republic).
Edition	1. vyd. Chichester, Microwaves in Organic Synthesis, A. Loupy (Ed.), p. 463-486, Wiley-VCH, 2002.
Publisher	John Wiley

Other information
Original language	English
Type of outcome	Chapter(s) of a specialized book
Field of Study	10401 Organic chemistry
Country of publisher	United Kingdom of Great Britain and Northern Ireland
Confidentiality degree	is not subject to a state or trade secret
RIV identification code	RIV/00216224:14310/02:00006581
Organization unit	Faculty of Science
ISBN	3-527-30514-9
Keywords in English	microwave; photochemistry
Tags	microwave, Photochemistry
Tags	International impact
Changed by	Changed by: prof. RNDr. Petr Klán, Ph.D., učo 32829. Changed: 18/6/2009 11:24.

Abstract
Microwave chemistry already represents one of the important dimensions of modern chemistry today. Microwave heating increases efficiency of many chemical processes at the same time as it can reduce formation of by-products caused by overheating. It has been known for several decades that an electrodeless discharge lamp generates ultraviolet radiation when placed into the microwave field. We recently reported an original paper describing a photochemical reactor consisting of an electrodeless lamp irradiating the reaction mixture in a microwave oven. This simple arrangement allows a simultaneous interaction of UV and MW irradiation with the studied photochemical system and brings a unique possibility to study photochemical reactions under extreme thermal conditions (some photochemical reactions are sensitive to temperature which may have a significant effect on the stereo- or regioselectivity of the reaction). Moreover, the microwave field affects the dynamic behaviour of the photochemically generated radical pairs and we anticipate a non-thermal influence of photochemical reactions in which such intermediates are involved.

Abstract

Microwave chemistry already represents one of the important dimensions of modern chemistry today. Microwave heating increases efficiency of many chemical processes at the same time as it can reduce formation of by-products caused by overheating. It has been known for several decades that an electrodeless discharge lamp generates ultraviolet radiation when placed into the microwave field. We recently reported an original paper describing a photochemical reactor consisting of an electrodeless lamp irradiating the reaction mixture in a microwave oven. This simple arrangement allows a simultaneous interaction of UV and MW irradiation with the studied photochemical system and brings a unique possibility to study photochemical reactions under extreme thermal conditions (some photochemical reactions are sensitive to temperature which may have a significant effect on the stereo- or regioselectivity of the reaction). Moreover, the microwave field affects the dynamic behaviour of the photochemically generated radical pairs and we anticipate a non-thermal influence of photochemical reactions in which such intermediates are involved.

Links
GA203/02/0879, research and development project	Name: Vliv mikrovlnného záření na fotochemické reakce
GA203/02/0879, research and development project	Investor: Czech Science Foundation, Microwave Irradiation Effect on Photochemical Reactions
MSM 143100005, plan (intention)	Name: Strukturně-funkční vztahy biomolekul a jejich role v metabolismu
MSM 143100005, plan (intention)	Investor: Ministry of Education, Youth and Sports of the CR, Biomolecular Structure-function Relationships and their role in the Metabolism