无机及有机-无机杂化钛氧化物中的极化子输运模型

Models of Polaron Transport in Inorganic and Hybrid Organic-Inorganic Titanium Oxides.

作者信息

Morita Kazuki, Golomb Matthias J, Rivera Miguel, Walsh Aron

机构信息

Department of Materials, Imperial College London, London SW7 2AZ, United Kingdom.

Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6323, United States.

出版信息

Chem Mater. 2023 Apr 18;35(9):3652-3659. doi: 10.1021/acs.chemmater.3c00322. eCollection 2023 May 9.

DOI:10.1021/acs.chemmater.3c00322

PMID:37181672

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10173375/

Abstract

Polarons are a type of localized excess charge in materials and often form in transition metal oxides. The large effective mass and confined nature of polarons make them of fundamental interest for photochemical and electrochemical reactions. The most studied polaronic system is rutile TiO where electron addition results in small polaron formation through the reduction of Ti(IV) d to Ti(III) d centers. Using this model system, we perform a systematic analysis of the potential energy surface based on semiclassical Marcus theory parametrized from the first-principles potential energy landscape. We show that F-doped TiO only binds polaron weakly with effective dielectric screening after the second nearest neighbor. To tailor the polaron transport, we compare TiO to two metal-organic frameworks (MOFs): MIL-125 and ACM-1. The choice of MOF ligands and connectivity of the TiO octahedra largely vary the shape of the diabatic potential energy surface and the polaron mobility. Our models are applicable to other polaronic materials.

摘要

极化子是材料中一种局部过量电荷，通常在过渡金属氧化物中形成。极化子的大有效质量和受限性质使其在光化学反应和电化学反应中具有根本的研究意义。研究最多的极化子体系是金红石型TiO，电子添加通过将Ti(IV) d还原为Ti(III) d中心导致小极化子形成。使用这个模型体系，我们基于从第一性原理势能面参数化的半经典马库斯理论对势能面进行了系统分析。我们表明，F掺杂的TiO在第二近邻之后仅通过有效的介电屏蔽与极化子弱结合。为了定制极化子传输，我们将TiO与两种金属有机框架（MOF）：MIL-125和ACM-1进行了比较。MOF配体的选择和TiO八面体的连接性在很大程度上改变了非绝热势能面的形状和极化子迁移率。我们的模型适用于其他极化子材料。

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无机及有机-无机杂化钛氧化物中的极化子输运模型

Models of Polaron Transport in Inorganic and Hybrid Organic-Inorganic Titanium Oxides.

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