SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313236419> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W4313236419 endingPage "384" @default.
W4313236419 startingPage "377" @default.
W4313236419 abstract "Vibrational strong coupling (VSC) provides a novel means to modify chemical reactions and energy transfer pathways. To efficiently model chemical dynamics under VSC in the collective regime, herein a hybrid quantum mechanical/molecular mechanical (QM/MM) cavity molecular dynamics (CavMD) scheme is developed and applied to an experimentally studied chemical system. This approach can achieve linear scaling with respect to the number of molecules for a dilute solution under VSC by assuming that each QM solute molecule is surrounded by an independent MM solvent bath. Application of this approach to a dilute solution of Fe(CO)5 in n-dodecane under VSC demonstrates polariton dephasing to the dark modes and polariton-enhanced molecular nonlinear absorption. These simulations predict that strongly exciting the lower polariton may provide an energy transfer pathway that selectively excites the equatorial CO vibrations rather than the axial CO vibrations. Moreover, these simulations also directly probe the cavity effect on the dynamics of the Fe(CO)5 Berry pseudorotation reaction for comparison to recent two-dimensional infrared spectroscopy experiments. This theoretical approach is applicable to a wide range of other polaritonic systems and provides a tool for exploring the use of VSC for selective infrared photochemistry." @default.
W4313236419 created "2023-01-06" @default.
W4313236419 creator A5031745251 @default.
W4313236419 creator A5041302371 @default.
W4313236419 date "2022-12-27" @default.
W4313236419 modified "2023-10-12" @default.
W4313236419 title "QM/MM Modeling of Vibrational Polariton Induced Energy Transfer and Chemical Dynamics" @default.
W4313236419 cites W1521034837 @default.
W4313236419 cites W1986227237 @default.
W4313236419 cites W2035460800 @default.
W4313236419 cites W2051381895 @default.
W4313236419 cites W2067597620 @default.
W4313236419 cites W2074378830 @default.
W4313236419 cites W2086957099 @default.
W4313236419 cites W2110872379 @default.
W4313236419 cites W2145996477 @default.
W4313236419 cites W2156361817 @default.
W4313236419 cites W2169858698 @default.
W4313236419 cites W2315204504 @default.
W4313236419 cites W2474039666 @default.
W4313236419 cites W2501697547 @default.
W4313236419 cites W2516953064 @default.
W4313236419 cites W2519893846 @default.
W4313236419 cites W2558187095 @default.
W4313236419 cites W2740568453 @default.
W4313236419 cites W2757428377 @default.
W4313236419 cites W2886120629 @default.
W4313236419 cites W2912574264 @default.
W4313236419 cites W2953138299 @default.
W4313236419 cites W2954667063 @default.
W4313236419 cites W2962762819 @default.
W4313236419 cites W2971278461 @default.
W4313236419 cites W2980356599 @default.
W4313236419 cites W3022558586 @default.
W4313236419 cites W3034596331 @default.
W4313236419 cites W3042899518 @default.
W4313236419 cites W3098034920 @default.
W4313236419 cites W3102646062 @default.
W4313236419 cites W3118136486 @default.
W4313236419 cites W3132399625 @default.
W4313236419 cites W3134181237 @default.
W4313236419 cites W3134354986 @default.
W4313236419 cites W3135005523 @default.
W4313236419 cites W3158091490 @default.
W4313236419 cites W3160823503 @default.
W4313236419 cites W3180681014 @default.
W4313236419 cites W3188074545 @default.
W4313236419 cites W3190513184 @default.
W4313236419 cites W3193988690 @default.
W4313236419 cites W3195490855 @default.
W4313236419 cites W3200374268 @default.
W4313236419 cites W3203147390 @default.
W4313236419 cites W3203485657 @default.
W4313236419 cites W3214221948 @default.
W4313236419 cites W3215210088 @default.
W4313236419 cites W3215946473 @default.
W4313236419 cites W3216342990 @default.
W4313236419 cites W4200163695 @default.
W4313236419 cites W4200316547 @default.
W4313236419 cites W4225789006 @default.
W4313236419 cites W4226212711 @default.
W4313236419 cites W4287200285 @default.
W4313236419 cites W4296412976 @default.
W4313236419 cites W4309232845 @default.
W4313236419 doi "https://doi.org/10.1021/jacs.2c10170" @default.
W4313236419 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36574620" @default.
W4313236419 hasPublicationYear "2022" @default.
W4313236419 type Work @default.
W4313236419 citedByCount "4" @default.
W4313236419 countsByYear W43132364192023 @default.
W4313236419 crossrefType "journal-article" @default.
W4313236419 hasAuthorship W4313236419A5031745251 @default.
W4313236419 hasAuthorship W4313236419A5041302371 @default.
W4313236419 hasBestOaLocation W43132364192 @default.
W4313236419 hasConcept C120665830 @default.
W4313236419 hasConcept C121332964 @default.
W4313236419 hasConcept C130725296 @default.
W4313236419 hasConcept C147597530 @default.
W4313236419 hasConcept C159467904 @default.
W4313236419 hasConcept C178790620 @default.
W4313236419 hasConcept C185592680 @default.
W4313236419 hasConcept C24123453 @default.
W4313236419 hasConcept C2775846362 @default.
W4313236419 hasConcept C32909587 @default.
W4313236419 hasConcept C41999313 @default.
W4313236419 hasConcept C49023278 @default.
W4313236419 hasConcept C59593255 @default.
W4313236419 hasConcept C62520636 @default.
W4313236419 hasConceptScore W4313236419C120665830 @default.
W4313236419 hasConceptScore W4313236419C121332964 @default.
W4313236419 hasConceptScore W4313236419C130725296 @default.
W4313236419 hasConceptScore W4313236419C147597530 @default.
W4313236419 hasConceptScore W4313236419C159467904 @default.
W4313236419 hasConceptScore W4313236419C178790620 @default.
W4313236419 hasConceptScore W4313236419C185592680 @default.
W4313236419 hasConceptScore W4313236419C24123453 @default.
W4313236419 hasConceptScore W4313236419C2775846362 @default.
W4313236419 hasConceptScore W4313236419C32909587 @default.