Computational insight into excited states of the ring-opening radicals from the pyrolysis of furan biofuels

Computational insight into excited states of the ring-opening radicals from the pyrolysis of furan biofuels

© 2018 Wiley Periodicals, Inc.

Bibliographische Detailangaben
Veröffentlicht in:Journal of computational chemistry. - 1984. - 40(2019), 9 vom: 05. Apr., Seite 1057-1065
1. Verfasser: Li, Yuanyuan (VerfasserIn)
Weitere Verfasser: Gan, Yanzhen, Cao, Zexing
Format: Online-Aufsatz
Sprache:English
Veröffentlicht: 2019
Zugriff auf das übergeordnete Werk:Journal of computational chemistry
Schlagworte:Journal Article Research Support, Non-U.S. Gov't TDDFT and CASPT2 calculations electronic spectra excited-state nonadiabatic dynamics furan biofuels radicals Biofuels Free Radicals Furans mehr... furan UC0XV6A8N9
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520 |a The low-lying valence excited states and Rydberg states of the radical species from the ring-opening reactions in pyrolysis of furan biofuels have been determined by extensive density functional theory and sophisticated wave function theory calculations. The radicals 1-C4 H5 O-2, 2-furylCH2 , and 4-C6 H7 O with the delocalized π-type single electron are predicted to be most stable among the reactive species here for furan, 2-methyfuran, and 2,5-dimethylfuran, respectively. Predicted vertical transition energies by TD-CAM-B3LYP show good agreement with those by CASPT2. Some among the electronic excitations to low-lying states can take place in the visible light region, and they may be involved in the combustion process. Further surface hopping dynamics simulations on the excited states of the most stable ring-opening radical 1-C4 H5 O-2 of furan as an example reveal that 89.9% sampling trajectories at the initial excited state of 22 A"(π1 π*2 ) decay to the 12 A'(n1 π*2 ) state within an average of 384 fs, and then 81.2% trajectories at the 12 A' state go to the ground state within an average of 114 fs. At the end of the simulation for 1000 fs, 18.8% trajectories still stay on the excited states of 22 A" and 12 A', suggesting that the reactive radicals in the ground state are mainly responsible for the combustion chemistry of furan biofuels. © 2018 Wiley Periodicals, Inc 
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650 4 |a Research Support, Non-U.S. Gov't 
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650 4 |a electronic spectra 
650 4 |a excited-state nonadiabatic dynamics 
650 4 |a furan biofuels 
650 4 |a radicals 
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700 1 |a Cao, Zexing  |e verfasserin  |4 aut 
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