SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4306252502> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W4306252502 endingPage "13206" @default.
W4306252502 startingPage "13193" @default.
W4306252502 abstract "Acid-catalyzed alcohol dehydration is a key reaction step in biomass upgrading, kinetics of which are significantly affected by mixed aqueous solvents. Computational modeling can provide fundamental understanding of solvation effects in catalysis, and ultimately a predictive tool for optimizing reactivity and selectivity. We introduce a multiscale method that combines density functional theory (DFT) with classical molecular dynamics (MD) to investigate the effect of mixed solvents (water with DMSO/GVL/MeCN) on the kinetics of acid-catalyzed dehydration of t-butanol and fructose. We determine the thermodynamically stable form of the excess proton (i.e., the catalyst) in mixed solvents. In water/GVL and water/MeCN mixtures, the excess proton resides on a water cluster (H5O2+). In water/DMSO, it forms a DMSO-H3O+ cluster in a bulk water/DMSO mixture, but appears as H5O2+ when close to an alcohol reactant. We model the E1 dehydration mechanism on t-butanol and fructose with DFT, and subsequently solvate each reaction intermediate and transition state with MD. Reaction free energy profiles for the elementary steps are mapped out at different solvent compositions. Our predictions compare well to results of Mellmer et al. Nature Catalysis 2018, 1, 199–207 and Nature Communications 2019, 10, 1–10, for both AIMD-measured reaction free energy profiles and experimental rate constants. By decoupling the gas-phase and solvation free energies, our calculation provides a clear interpretation of the solvation effects on an absolute free energy scale, and furthermore deconvolutes these effects into intuitive short-range electronic and longer range electrostatic interactions. Furthermore, our approach reveals solvent structuring around the reaction intermediates and the transition state. Our scalable DFT/MD approach provides a potentially powerful tool to predict reaction kinetics in condensed phases as well as detailed structural and energetic understanding of solvation effects in catalysis." @default.
W4306252502 created "2022-10-15" @default.
W4306252502 creator A5029378576 @default.
W4306252502 creator A5031735060 @default.
W4306252502 creator A5039412874 @default.
W4306252502 date "2022-10-14" @default.
W4306252502 modified "2023-10-18" @default.
W4306252502 title "Kinetics of Acid-Catalyzed Dehydration of Alcohols in Mixed Solvent Modeled by Multiscale DFT/MD" @default.
W4306252502 cites W1031578623 @default.
W4306252502 cites W1966078827 @default.
W4306252502 cites W1968392170 @default.
W4306252502 cites W1970973025 @default.
W4306252502 cites W1976499671 @default.
W4306252502 cites W1981021420 @default.
W4306252502 cites W1986025575 @default.
W4306252502 cites W2001662033 @default.
W4306252502 cites W2003949305 @default.
W4306252502 cites W2021137795 @default.
W4306252502 cites W2021832765 @default.
W4306252502 cites W2035266068 @default.
W4306252502 cites W2048282215 @default.
W4306252502 cites W2051082589 @default.
W4306252502 cites W2051381895 @default.
W4306252502 cites W2057477511 @default.
W4306252502 cites W2065171445 @default.
W4306252502 cites W2077709135 @default.
W4306252502 cites W2079318633 @default.
W4306252502 cites W2097469973 @default.
W4306252502 cites W2102537419 @default.
W4306252502 cites W2103945336 @default.
W4306252502 cites W2106108754 @default.
W4306252502 cites W2107029002 @default.
W4306252502 cites W2123768693 @default.
W4306252502 cites W2133524519 @default.
W4306252502 cites W2143981217 @default.
W4306252502 cites W2150962987 @default.
W4306252502 cites W2160544821 @default.
W4306252502 cites W2168155871 @default.
W4306252502 cites W2171268876 @default.
W4306252502 cites W2471079269 @default.
W4306252502 cites W2473651781 @default.
W4306252502 cites W2514889848 @default.
W4306252502 cites W2588373038 @default.
W4306252502 cites W2735581044 @default.
W4306252502 cites W2761626515 @default.
W4306252502 cites W2792071025 @default.
W4306252502 cites W2793536176 @default.
W4306252502 cites W2801366271 @default.
W4306252502 cites W2883311489 @default.
W4306252502 cites W2883384655 @default.
W4306252502 cites W2892623465 @default.
W4306252502 cites W2896016672 @default.
W4306252502 cites W2901440519 @default.
W4306252502 cites W2921785426 @default.
W4306252502 cites W2951793591 @default.
W4306252502 cites W2975818336 @default.
W4306252502 cites W3014493379 @default.
W4306252502 cites W3019287016 @default.
W4306252502 cites W3087121959 @default.
W4306252502 cites W3094128450 @default.
W4306252502 cites W3107383570 @default.
W4306252502 cites W3189906272 @default.
W4306252502 cites W3206817636 @default.
W4306252502 cites W3208670331 @default.
W4306252502 cites W4300688077 @default.
W4306252502 doi "https://doi.org/10.1021/acscatal.2c03978" @default.
W4306252502 hasPublicationYear "2022" @default.
W4306252502 type Work @default.
W4306252502 citedByCount "2" @default.
W4306252502 countsByYear W43062525022023 @default.
W4306252502 crossrefType "journal-article" @default.
W4306252502 hasAuthorship W4306252502A5029378576 @default.
W4306252502 hasAuthorship W4306252502A5031735060 @default.
W4306252502 hasAuthorship W4306252502A5039412874 @default.
W4306252502 hasConcept C121332964 @default.
W4306252502 hasConcept C132439834 @default.
W4306252502 hasConcept C142724271 @default.
W4306252502 hasConcept C147597530 @default.
W4306252502 hasConcept C147789679 @default.
W4306252502 hasConcept C148093993 @default.
W4306252502 hasConcept C148898269 @default.
W4306252502 hasConcept C152365726 @default.
W4306252502 hasConcept C161790260 @default.
W4306252502 hasConcept C178790620 @default.
W4306252502 hasConcept C184651966 @default.
W4306252502 hasConcept C185592680 @default.
W4306252502 hasConcept C204787440 @default.
W4306252502 hasConcept C2776910235 @default.
W4306252502 hasConcept C2779455329 @default.
W4306252502 hasConcept C2780471494 @default.
W4306252502 hasConcept C62520636 @default.
W4306252502 hasConcept C71924100 @default.
W4306252502 hasConcept C93391505 @default.
W4306252502 hasConceptScore W4306252502C121332964 @default.
W4306252502 hasConceptScore W4306252502C132439834 @default.
W4306252502 hasConceptScore W4306252502C142724271 @default.
W4306252502 hasConceptScore W4306252502C147597530 @default.
W4306252502 hasConceptScore W4306252502C147789679 @default.