On validity and limits of deducing the degree of charge transfer from shifts of cyano vibrations

IF 2.9 Q3 CHEMISTRY, PHYSICAL
Melissa Berteau-Rainville, E. Orgiu, Ingo Salzmann
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引用次数: 0

Abstract

Understanding the p-doping of organic semiconductors often relies on spectroscopic fingerprints of cyano vibrations, which strongly depend on the charge state of the dopant molecule following intermolecular charge transfer. Interpreting these vibrations can be difficult as a number of other factors can impact them. Here, we formalize the assumptions behind the determination of molecular charge from cyano vibrations and we use computational modeling to demonstrate key obfuscating factors in this process. We notably demonstrate that cyano vibrations do not necessarily shift linearly with the molecular charge and investigate which molecular parameters can explain that. Finally, we provide guidelines for the study of charge transfers involving new molecular dopants based on their cyano vibrations.
从氰基振动位移推导电荷转移度的有效性和局限性
了解有机半导体的p掺杂通常依赖于氰化物振动的光谱指纹图谱,这强烈依赖于掺杂分子在分子间电荷转移后的电荷状态。由于许多其他因素可能会影响这些振动,因此解释这些振动可能很困难。在这里,我们形式化了从氰基振动中确定分子电荷的假设,并使用计算模型来演示这一过程中的关键混淆因素。我们特别证明了氰基振动不一定随分子电荷线性移动,并研究了哪些分子参数可以解释这一点。最后,我们为基于氰基振动的新型分子掺杂剂的电荷转移研究提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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