Infrared laser induced organic reactions. Technical progress report, October 15, 1980

As outlined in the original proposal, experiments of two types have been pursued. In the first, the competition among activation, deactivation, and chemical reaction rates in laser-activated organic vapors were investigated. In the second, potential applications of infrared multiphoton activation to...

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Bibliographic Details
Main Author: Farneth, W E
Language:unknown
Published: 2017
Subjects:
37 INORGANIC
ORGANIC
PHYSICAL AND ANALYTICAL CHEMISTRY
ALKENES
PHOTOCHEMISTRY
CARBONIC ACID ESTERS
CYCLOALKANES
ETHERS
HETEROCYCLIC OXYGEN COMPOUNDS
CARBON DIOXIDE LASERS
DEUTERIUM COMPOUNDS
INFRARED SPECTRA
MEDIUM VACUUM
PRESSURE DEPENDENCE
PULSED IRRADIATION
RESEARCH PROGRAMS
ALKANES
CHEMISTRY
ESTERS
GAS LASERS
HYDROCARBONS
HYDROGEN COMPOUNDS
IRRADIATION
LASERS
ORGANIC COMPOUNDS
ORGANIC OXYGEN COMPOUNDS
SPECTRA
Carbonic acid
Online Access:http://www.osti.gov/servlets/purl/6904060
https://www.osti.gov/biblio/6904060
https://doi.org/10.2172/6904060
Description
Summary:As outlined in the original proposal, experiments of two types have been pursued. In the first, the competition among activation, deactivation, and chemical reaction rates in laser-activated organic vapors were investigated. In the second, potential applications of infrared multiphoton activation to studies of organic reaction dynamics were explored. For the first phase, infrared laser induced chemistry of vinylcyclopropane irradiated with a CO/sub 2/ TEA laser at relatively low pressures has been thoroughly investigated. Changes in yield and product distribution as a function of bath gas pressure, laser fluence, laser frequency, number of pulses, and laser intensity have been systematically studied. Concurrently, model calculations employing RRKM theory have been undertaken. From this combination, conclusions have been drawn about various aspects of the energy distribution among reacting molecules. Also, to test the assumption that the internal energy of the activated reactant is randomly distributed, tracer-induced reactions of bicyclopropyl-d/sub 4/ and diethylcarbonate have been investigated. The second phase, application of multiphoton activation to problems in organic reactivity, is less advanced. A substituted oxetane was prepared and irradiated with CO/sub 2/ laser and its decomposition studied. Infrared laser activation of heterogeneous reactions are also being investigated by examining the reactivity of carbon surfaces during laser irradiation.

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