DGIST Scholar: A joint experimental and theoretical determination of the structures of oxidized and reduced molecules

Title: A joint experimental and theoretical determination of the structures of oxidized and reduced molecules

Citation: Kang, S[Kang, Sunwoo]. (2012-09). A joint experimental and theoretical determination of the structures of oxidized and reduced molecules. doi: 10.1016/j.elecom.2012.07.011

Subject: Caprolactam ; Density Functional Calculation ; Density Functional Theory ; Electrochemical Experiments ; Electrolyte ; Electrolytes ; Ethylene ; Ethylene Carbonate ; Experiments ; Linear Chain ; Molecules ; One-Electron Oxidation ; One-Electron Reductions ; Oxidation ; Practical Method ; Reductive Decomposition ; Ring Structures ; Vinylene Carbonates ; Voltammetry

Abstract: In a joint study involving electrochemical experiments and density functional calculations, we determined the oxidized and reduced structures of ethylene carbonate (EC), vinylene carbonate (VC), N-methyl-ε-caprolactam (Me-CL), and N-acetyl-ε-caprolactam (Ac-CL). This study reveals that the four molecules maintain their ring structures under the one-electron oxidation condition. Me-CL and Ac-CL have linear chain forms, whereas EC and VC still have ring-structures under the one-electron reduction condition. We suggest that such a collaborative study, including both experimentation and theory, is a simple and practical method for determining the structures of oxidized and reduced molecules. © 2012 Elsevier B.V. All rights reserved.

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