离子键合
离子电导率
材料科学
热传导
电化学
化学物理
导电体
离子
溴化物
格子(音乐)
工作(物理)
化学工程
电导率
间质缺损
无机化学
载流子
替代(逻辑)
材料设计
纳米技术
离子势
电极
电阻率和电导率
混合材料
作者
Ya-Ru Kong,Jiayi Zhang,Dong-Sheng Shao,Wei Ye,Gang Yang,Qiu Ren,Weihua Ning,Zhengfang Tian,Xiao-Ming Ren
标识
DOI:10.1021/acs.chemmater.6c00101
摘要
Mixed ionic conductors that enable the cooperative transport of multiple charge carriers are essential for advanced solid-state electrochemical devices but remain challenging to realize in crystalline materials. Size-mismatched substitution provides an effective design strategy to promote ionic transport by expanding the lattice and generating an additional interstitial free volume. Guided by this principle, a dual-cation alloying approach is employed to activate coexistence H+/Li+ conduction in a one-dimensional (1D) lead bromide hybrid derived from TBA0.8(H3O)0.2PbBr3 (TBA+ = tetrabutylammonium), a framework intrinsically containing cation vacancies. Partial substitution of Li+ and Mn2+ at the A- and B-sites induces a pronounced size mismatch within the soft hybrid lattice, collectively facilitating ion migration. As a result, the optimized composition (x = 0.134) exhibits a high ionic conductivity of 3.75 × 10–3 S cm–1 at 373 K. This work establishes size-mismatched dual-cation alloying as a general design principle for high-performance mixed ionic conductors in hybrid halides.
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