SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3100787966> ?p ?o ?g. }

Showing items 1 to 100 of ±182 with 100 items per page.

W3100787966 abstract "In vibrational strong coupling (VSC), molecular vibrations strongly interact with the modes of an optical cavity to form hybrid light-matter states known as vibrational polaritons. Experiments show that the kinetics of thermally activated chemical reactions can be modified by VSC. Transition-state theory, which assumes that internal thermalization is fast compared to reactive transitions, has been unable to explain the observed findings. Here, we carry out kinetic simulations to understand how dissipative processes, namely those that VSC introduces to the chemical system, affect reactions where internal thermalization and reactive transitions occur on similar timescales. Using the Marcus-Levich-Jortner type of electron transfer as a model reaction, we show that such dissipation can change reactivity by accelerating internal thermalization, thereby suppressing nonequilibrium effects that occur in the reaction outside the cavity. This phenomenon is attributed mainly to cavity decay (i.e., photon leakage), but a supporting role is played by the relaxation between polaritons and dark states. When nonequilibrium effects are already suppressed in the bare reaction (the reactive species are essentially at internal thermal equilibrium throughout the reaction), we find that reactivity does not change significantly under VSC. Connections are made between our results and experimental observations." @default.
W3100787966 created "2020-11-23" @default.
W3100787966 creator A5048416222 @default.
W3100787966 creator A5054454592 @default.
W3100787966 creator A5081834168 @default.
W3100787966 date "2021-02-23" @default.
W3100787966 modified "2023-09-26" @default.
W3100787966 title "Nonequilibrium effects of cavity leakage and vibrational dissipation in thermally activated polariton chemistry" @default.
W3100787966 cites W145392200 @default.
W3100787966 cites W1489959446 @default.
W3100787966 cites W1562957650 @default.
W3100787966 cites W1579348746 @default.
W3100787966 cites W1965967179 @default.
W3100787966 cites W1971092996 @default.
W3100787966 cites W2053843886 @default.
W3100787966 cites W2055467622 @default.
W3100787966 cites W2055928569 @default.
W3100787966 cites W2061708605 @default.
W3100787966 cites W2067597620 @default.
W3100787966 cites W2077344532 @default.
W3100787966 cites W2091237955 @default.
W3100787966 cites W2141742048 @default.
W3100787966 cites W2156361817 @default.
W3100787966 cites W2157928204 @default.
W3100787966 cites W2200146405 @default.
W3100787966 cites W2248374399 @default.
W3100787966 cites W2328994774 @default.
W3100787966 cites W2401503743 @default.
W3100787966 cites W2433371754 @default.
W3100787966 cites W2468188697 @default.
W3100787966 cites W2551154894 @default.
W3100787966 cites W2551729433 @default.
W3100787966 cites W2624512168 @default.
W3100787966 cites W2772019684 @default.
W3100787966 cites W2781982667 @default.
W3100787966 cites W2783689200 @default.
W3100787966 cites W2788262066 @default.
W3100787966 cites W2795624860 @default.
W3100787966 cites W2798434775 @default.
W3100787966 cites W2799633071 @default.
W3100787966 cites W2805311270 @default.
W3100787966 cites W2885095061 @default.
W3100787966 cites W2887629117 @default.
W3100787966 cites W2892297880 @default.
W3100787966 cites W2898625297 @default.
W3100787966 cites W2912574264 @default.
W3100787966 cites W2921546492 @default.
W3100787966 cites W2922278335 @default.
W3100787966 cites W2949245623 @default.
W3100787966 cites W2953138299 @default.
W3100787966 cites W2954667063 @default.
W3100787966 cites W2962762819 @default.
W3100787966 cites W2962891162 @default.
W3100787966 cites W2963554962 @default.
W3100787966 cites W2970319631 @default.
W3100787966 cites W2979334912 @default.
W3100787966 cites W2990715558 @default.
W3100787966 cites W2990849887 @default.
W3100787966 cites W3013035706 @default.
W3100787966 cites W3016992770 @default.
W3100787966 cites W3021792367 @default.
W3100787966 cites W3022555638 @default.
W3100787966 cites W3022558586 @default.
W3100787966 cites W3037552886 @default.
W3100787966 cites W3042323557 @default.
W3100787966 cites W3043336899 @default.
W3100787966 cites W3045251713 @default.
W3100787966 cites W3045306068 @default.
W3100787966 cites W3045513545 @default.
W3100787966 cites W3046471045 @default.
W3100787966 cites W3083701664 @default.
W3100787966 cites W3083965637 @default.
W3100787966 cites W3091894053 @default.
W3100787966 cites W3098922517 @default.
W3100787966 cites W3099999365 @default.
W3100787966 cites W3100333939 @default.
W3100787966 cites W3101042874 @default.
W3100787966 cites W3102646062 @default.
W3100787966 cites W3104919791 @default.
W3100787966 cites W3106071221 @default.
W3100787966 cites W3108165877 @default.
W3100787966 cites W3111326939 @default.
W3100787966 cites W4243960545 @default.
W3100787966 cites W4247434047 @default.
W3100787966 doi "https://doi.org/10.1063/5.0037905" @default.
W3100787966 hasPublicationYear "2021" @default.
W3100787966 type Work @default.
W3100787966 sameAs 3100787966 @default.
W3100787966 citedByCount "26" @default.
W3100787966 countsByYear W31007879662021 @default.
W3100787966 countsByYear W31007879662022 @default.
W3100787966 countsByYear W31007879662023 @default.
W3100787966 crossrefType "journal-article" @default.
W3100787966 hasAuthorship W3100787966A5048416222 @default.
W3100787966 hasAuthorship W3100787966A5054454592 @default.
W3100787966 hasAuthorship W3100787966A5081834168 @default.
W3100787966 hasBestOaLocation W31007879661 @default.
W3100787966 hasConcept C121332964 @default.
W3100787966 hasConcept C123669783 @default.
W3100787966 hasConcept C130725296 @default.