Journal ArticleDOI
Enhanced Cuprophilic Interactions in Crystalline Catalysts Facilitate the Highly Selective Electroreduction of CO2 to CH4.
Lei Zhang,Xiao-Xin Li,Zhongling Lang,Yang Liu,Jiang Liu,Lin Yuan,Wan-Yue Lu,Yuan-Sheng Xia,Long-Zhang Dong,Daqiang Yuan,Ya-Qian Lan,Ya-Qian Lan +11 more
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TLDR
In this paper, two stable copper(I)-based coordination polymer (NNU-32 and NNU-33(S)) catalysts are synthesized and integrated into a CO2 flow cell electrolyzer, which exhibited very high selectivity for electrocatalytic CO2-to-CH4 conversion due to clearly inherent intramolecular cuprophilic interactions.Abstract:
Cu(I)-based catalysts have proven to play an important role in the formation of specific hydrocarbon products from electrochemical carbon dioxide reduction reaction (CO2RR). However, it is difficult to understand the effect of intrinsic cuprophilic interactions inside the Cu(I) catalysts on the electrocatalytic mechanism and performance. Herein, two stable copper(I)-based coordination polymer (NNU-32 and NNU-33(S)) catalysts are synthesized and integrated into a CO2 flow cell electrolyzer, which exhibited very high selectivity for electrocatalytic CO2-to-CH4 conversion due to clearly inherent intramolecular cuprophilic interactions. Substitution of hydroxyl radicals for sulfate radicals during the electrocatalytic process results in an in situ dynamic crystal structure transition from NNU-33(S) to NNU-33(H), which further strengthens the cuprophilic interactions inside the catalyst structure. Consequently, NNU-33(H) with enhanced cuprophilic interactions shows an outstanding product (CH4) selectivity of 82% at -0.9 V (vs reversible hydrogen electrode, j = 391 mA cm-2), which represents the best crystalline catalyst for electrocatalytic CO2-to-CH4 conversion to date. Moreover, the detailed DFT calculations also prove that the cuprophilic interactions can effectively facilitate the electroreduction of CO2 to CH4 by decreasing the Gibbs free energy change of potential determining step (*H2COOH → *OCH2). Significantly, this work first explored the effect of intrinsic cuprophilic interactions of Cu(I)-based catalysts on the electrocatalytic performance of CO2RR and provides an important case study for designing more stable and efficient crystalline catalysts to reduce CO2 to high-value carbon products.read more
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Hydroxyl Groups Functionalized Single Crystal of Copper(II)-Porphyrin Complex for Electroreduction CO2 to CH4.
TL;DR: This work designed and synthesized a single crystal of copper( II) complex with hydroxyl groups, namely 5,10,15,20-tetrakis(3,4-dihydroxyphenyl)porphyrin copper(II) (Cu-PorOH), which can serve as a highly efficient heterogeneous electrocatalyst for electroreduction CO 2 toward the production of CH 4.
Journal ArticleDOI
One-Dimensional Copper Bromide Based Inorganic-Organic Hybrids as Fuels for Hypergolic Bipropellants with Hydrogen Peroxide as Oxidizer
Ya-Jie Wang,Xu Yang Wang,Hong Xu,Weifang Ren,Rui-zhi Pang,Li Yang,Wen-Chao Tong,Qian-You Wang,Shuang-Quan Zang +8 more
TL;DR: In this article , a series of unprecedented one-dimensional copper bromide-based inorganic-organic hybrids were synthesized as hypergolic fuels for the first time, and the 1-propargyl-3-methylimidazolium bromides-based complex achieved the shortest ignition delay (ID) of 12 ms.
Journal ArticleDOI
Aluminum-Doped Mesoporous Copper Oxide Nanofibers Enabling High-Efficiency CO2 Electroreduction to Multicarbon Products
Miaomiao Fang,Yujin Ji,Yecan Pi,Pengtang Wang,Zhiwei Hu,Jyh-Fu Lee,Huan Pang,Youyong Li,Qianwen Shao,Xiaoqing Huang +9 more
TL;DR: In this article , the aluminum-doped mesoporous copper oxide nanofibers (Cu-Al MONFs) can exhibit excellent performance in the electrocatalytic reduction of CO2 to multicarbon (C2+) products, with the remarkable C2+ Faradaic efficiency of 76.4%.
Journal ArticleDOI
Atomically precise copper nanoclusters as ultrasmall molecular aggregates: Appealing compositions, structures, properties, and applications
Leon Li-Min Zhang,Wai Yeung Wong +1 more
TL;DR: In this paper , the authors summarized the progress on atomically precise metal nanoclusters (CuNCs) that exhibit a range of appealing properties and applications in different fields, including fundamental studies and practical applications.
Journal ArticleDOI
Redox‐Active Crystalline Coordination Catalyst for Hybrid Electrocatalytic Methanol Oxidation and CO <sub>2</sub> Reduction
TL;DR: In this article , a coordination catalyst model system for hybrid electrocatalytic full reaction, including Ni 8 -TET with active oxidation sites, Ni-TPP with active reduction sites and PCN-601 with redox-active sites, was established for the first time.
References
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