A Multifunctional Co-Based Metal–Organic Framework as a Platform for Proton Conduction and Ni trophenols Reduction

化学 质子 电导率 金属有机骨架 微型多孔材料 分子 间苯二甲酸 金属 无机化学 化学工程 物理化学 有机化学 吸附 工程类 物理 聚酯纤维 量子力学 对苯二甲酸
作者
Xiaoxue Ma,Lu Zhang,Ronghua Liu,Xin Li,Hui Yan,Xin Zhao,Yikai Yang,Hongjie Zhu,Xiangjin Kong,Jie Yin,Huawei Zhou,Xia Li,Lingqian Kong,Hongguo Hao,Di‐Chang Zhong,Fangna Dai
出处
期刊:Inorganic Chemistry [American Chemical Society]
卷期号:62 (49): 20325-20339
标识
DOI:10.1021/acs.inorgchem.3c03313
摘要

The design and development of proton conduction materials for clean energy-related applications is obviously important and highly desired but challenging. An ultrastable cobalt-based metal-organic framework Co-MOF, formulated as [Co2(btzip)2(μ2-OH2)] (namely, LCUH-103, H2btzip = 4, 6-bis(triazol-1-yl)-isophthalic acid) had been successfully synthesized via the hydrothermal method. LCUH-103 exhibits a three-dimensional framework and a one-dimensional microporous channel structure with scu topology based on the binuclear metallic cluster {Co2}. LCUH-103 indicated excellent chemical and thermal stability; peculiarly, it can retain its entire framework in acid and alkali solutions with different pH values for 24 h. The excellent stability is a prerequisite for studying its proton conductivity, and its proton conductivity σ can reach up to 1.25 × 10-3 S·cm-1 at 80 °C and 100% relative humidity (RH). In order to enhance its proton conductivity, the proton-conducting material Im@LCUH-103 had been prepared by encapsulating imidazole molecules into the channels of LCUH-103. Im@LCUH-103 indicated an excellent proton conductivity of 3.18 × 10-2 S·cm-1 at 80 °C and 100% RH, which is 1 order of magnitude higher than that of original LCUH-103. The proton conduction mechanism was systematically studied by various detection means and theoretical calculations. Meanwhile, LCUH-103 is also an excellent carrier for palladium nanoparticles (Pd NPs) via a wetness impregnation strategy, and the nitrophenols (4/3/2-NP) reduction in aqueous solution by Pd@LCUH-103 indicated an outstanding conversion efficiency, high rate constant (k), and exceptional cycling stability. Specifically, the k value of 4-NP reduction by Pd@LCUH-103 is superior to many other reported catalysts, and its k value is as high as 1.34 min-1 and the cycling stability can reach up to 6 cycles. Notably, its turnover frequency (TOF) value is nearly 196.88 times more than that of Pd/C (wt 5%) in the reaction, indicating its excellent stability and catalytic activity.

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