2022
DOI: 10.1021/acs.jpca.2c01487
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Investigation of Spatial Orientation and Kinetic Energy of Reactive Site Collision between Benzyl Chloride and Piperidine: Novel Insight into the Microwave Nonthermal Effect

Abstract: Microwave nonthermal effect in chemical reactions is still an uncertain problem. In this work, we have studied the spatial orientation and kinetic energy of reactive site collision between benzyl chloride and piperidine molecules in substitution reaction under microwave irradiation using the molecular dynamics simulation. Our results showed that microwave polarization can change the spatial orientation of reactive site collision. Collision probability between the Cl atom of the C–Cl group of benzyl chloride an… Show more

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Cited by 7 publications
(2 citation statements)
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“…Then, we also investigated the influence of microwaves on chemical reactions and found that microwaves also can change the collision orientation and kinetic energy of reactive site between benzyl chloride and piperidine. 19 The results show that the collision probability between the C−Cl group of benzyl chloride and the N−H group of piperidine increased by up to 33.5% at an effective spatial solid angle under MWR. Meanwhile, the fraction of high-energy collisions increased by 45.9 times under MWR.…”
Section: Introductionmentioning
confidence: 94%
See 1 more Smart Citation
“…Then, we also investigated the influence of microwaves on chemical reactions and found that microwaves also can change the collision orientation and kinetic energy of reactive site between benzyl chloride and piperidine. 19 The results show that the collision probability between the C−Cl group of benzyl chloride and the N−H group of piperidine increased by up to 33.5% at an effective spatial solid angle under MWR. Meanwhile, the fraction of high-energy collisions increased by 45.9 times under MWR.…”
Section: Introductionmentioning
confidence: 94%
“…Under the microwave polarization, the collision probability along the electric field direction increases by 5%, and the proportion of molecules with higher collision energy decreases by 6%. Then, we also investigated the influence of microwaves on chemical reactions and found that microwaves also can change the collision orientation and kinetic energy of reactive site between benzyl chloride and piperidine . The results show that the collision probability between the C–Cl group of benzyl chloride and the N–H group of piperidine increased by up to 33.5% at an effective spatial solid angle under MWR.…”
Section: Introductionmentioning
confidence: 98%