Add to ORKGThe yields of OH radicals from the ozonolysis of ethene and trans-2-butene under dry and humid conditions (0 % and 65 % relative humidity, respectively) were measured by the small-ratio relative rate technique. The OH yields from both alkenes are found to be independent of the humidity within the error limits of the experiments. This suggests that the OH yield from the reaction of Criegee intermediates with water is less than 30%. These findings are supported by Master equation calculations that are consistent with the major product from the reaction of Criegee intermediates with water being the hydroxyalkyl hydroperoxide (RCH-(OH)OOH), with a smaller contribution from OH. Implications of these results for both the fundamental reaction mech...
Alkene ozonolysis generates Criegee intermediates (carbonyl oxides) that decay to several products i...
Alkene ozonolysis generates Criegee intermediates (carbonyl oxides) that decay to several products i...
The gas-phase reactions of ozone with alkenes can be significant sources of free radicals (OH, HO(2)...
The gas-phase reaction of alkenes with ozone has been the subject of considerable research interest ...
Criegee intermediates (CIs) are the key intermediates in the ozonolysis reactions of alkenes, which ...
The removal of SO2 in the presence of alkene-ozone systems has been studied for ethene, cis-but-2-en...
Peroxy radicals and carbonyl oxides (Criegee intermediates) are produced in the troposphere during O...
The gas-phase reaction of ozone with unsaturated volatile organic compounds (VOCs), alkenes, is an i...
Criegee intermediates, carbonyl oxide species important in alkene ozonolysis reactions in the atmosp...
Criegee radicals are important atmospheric intermediates formed from ozonolysis of alkenes. It poten...
The ozonolysis of alkenes is considered to be an important source of atmospheric peroxides, which se...
The ozonolysis, that is, the oxidation with O$_{3}$, is one of the most important removal pathways f...
Ozonolysis reactions of alkenes are important oxidation pathways of alkenes in the atmosphere, and t...
Ozonolysis is one of the dominant oxidation pathways for tropospheric alkenes. Although numerous stu...
The reaction of Criegee intermediates (CI) with ozone, O-3, has been re-examined with higher levels ...
Alkene ozonolysis generates Criegee intermediates (carbonyl oxides) that decay to several products i...
Alkene ozonolysis generates Criegee intermediates (carbonyl oxides) that decay to several products i...
The gas-phase reactions of ozone with alkenes can be significant sources of free radicals (OH, HO(2)...
The gas-phase reaction of alkenes with ozone has been the subject of considerable research interest ...
Criegee intermediates (CIs) are the key intermediates in the ozonolysis reactions of alkenes, which ...
The removal of SO2 in the presence of alkene-ozone systems has been studied for ethene, cis-but-2-en...
Peroxy radicals and carbonyl oxides (Criegee intermediates) are produced in the troposphere during O...
The gas-phase reaction of ozone with unsaturated volatile organic compounds (VOCs), alkenes, is an i...
Criegee intermediates, carbonyl oxide species important in alkene ozonolysis reactions in the atmosp...
Criegee radicals are important atmospheric intermediates formed from ozonolysis of alkenes. It poten...
The ozonolysis of alkenes is considered to be an important source of atmospheric peroxides, which se...
The ozonolysis, that is, the oxidation with O$_{3}$, is one of the most important removal pathways f...
Ozonolysis reactions of alkenes are important oxidation pathways of alkenes in the atmosphere, and t...
Ozonolysis is one of the dominant oxidation pathways for tropospheric alkenes. Although numerous stu...
The reaction of Criegee intermediates (CI) with ozone, O-3, has been re-examined with higher levels ...
Alkene ozonolysis generates Criegee intermediates (carbonyl oxides) that decay to several products i...
Alkene ozonolysis generates Criegee intermediates (carbonyl oxides) that decay to several products i...
The gas-phase reactions of ozone with alkenes can be significant sources of free radicals (OH, HO(2)...