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Abstract
The new types of elementary reaction in which a nucleophilic addition (A) to quinones is coupled with electron transfer (ET) and even further proton transfer (PT) are suggested herein by density functional theory calculation, which are called Addition Coupled Electron Transfer (ACET) and Addition Coupled Proton Coupled Electron Transfer (ACPCET). With a [2.2]paracyclophane-derived biquinone as the substrate, the nature of nucleophilic addition onto its sp2 carbons exhibits a change from stepwise A-ET-PT to ACET-PT and further to ACPCET, in parallel with the decreased nucleophilicity of the attacking reagent. In addition, we further proposed six possible potential energy surfaces and the coupling modes among A, ET and PT, among which three have been found in this work. Quasi-classical trajectory shows that the ACET and PT event can also be dynamically concerted even for an ACET-PT mechanism.
Supplementary materials
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Supporting Information
Description
Supplementary figures and tables, energetics and coordinates, and the settings for the quasi-classical molecular dynamics.
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