Toward an Understanding of the Enhanced CO_2 Electroreduction in NaCl Electrolyte over CoPc Molecule-Implanted Graphitic Carbon Nitride Catalyst

Tan Xinyi; Yu Chang; Song Xuedan; Zhao Changtai; Cui Song; Xu Hanyu; Chang Jiangwei; Guo Wei; Wang Zhao; Xie Yuanyang; Qiu Jieshan

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Toward an Understanding of the Enhanced CO_2 Electroreduction in NaCl Electrolyte over CoPc Molecule-Implanted Graphitic Carbon Nitride Catalyst

机译：朝着在COPC分子植入的石墨氮化物催化剂上的NaCl电解质中提高CO_2电导的理解

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Direct CO2 electrolysis in seawater enables the simultaneous conversion of CO2 into CO and the chlorine ions into Cl-2, further meeting downstream industry needs such as phosgene synthesis and also facilitating the net consumption of CO2. As a result, the direct implementation of CO2 electrolysis in seawater is urgently required. Herein, a CoPc molecule-implanted graphitic carbon nitride nanosheets (CoPc/g-C3N4) electrocatalyst is prepared via a simple mechanochemistry method. The CoPc/g-C3N4 with a negatively charged surface and preferential adsorption capability for Na+ can achieve appreciable faradaic efficiency (FE, 89.5%) toward CO with a current density of 16.0 mA cm(-2) in natural seawater and also realize long-term operation for 25 h in simulated seawater. Process monitoring further reveals that the chlorine ions in NaCl electrolyte can modulate the reaction microenvironment around the anode, which in turn has positive effects on the CO2RR in cathode. The CO2RR overall splitting in the simulated seawater exhibits a maximum FE of 98.1% towards CO at cell voltage of 3 V. This work describes the development of a carbon-coupled CoPc molecular catalyst that can drive the CO2 electrolysis in simulated seawater and provides a promising and energy-saving coupled reaction system for direct coproduction of CO and Cl-2.

机译：海水中的直接CO2电解能够同时将CO2与CO和氯离子同时转化为CL-2，进一步满足下游行业需求，如光气相作，还促进CO2的净消耗。结果，迫切需要直接实施海水中的CO2电解。这里，通过简单的机械化学方法制备COPC分子植入的石墨碳氮化物纳米晶片（COPC / G-C3N4）电催化剂。具有带负电的表面和Na +的优先吸附能力的COPC / G-C3N4可以在天然海水中的电流密度为16.0 mA cm（-2）的CO，并实现长 - 模拟海水中25小时的术语操作。过程监测进一步揭示了NaCl电解质中的氯离子可以调节阳极周围的反应微环境，这反过来又对阴极中的CO 2R有阳性作用。模拟海水中的CO 2RR总分裂表现出最多98.1％的CE1V的CO1V。该工作描述了可以在模拟海水中驱动CO2电解的碳偶联COPC分子催化剂的开发并提供有前途节能耦合耦合反应系统，用于直接共进CO和CL-2。

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来源
《Advanced energy materials 》 |2021年第30期| 2100075.1-2100075.11| 共11页
作者
Tan Xinyi; Yu Chang; Song Xuedan; Zhao Changtai; Cui Song; Xu Hanyu; Chang Jiangwei; Guo Wei; Wang Zhao; Xie Yuanyang; Qiu Jieshan;
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Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

Dalian Univ Technol Liaoning Key Lab Energy Mat & Chem Engn Sch Chem Engn State Key Lab Fine Chem Dalian 116024 Peoples R China;

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正文语种 eng
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CO2 electroreduction; CoPc molecular catalysts; graphitic carbon nitride; simulated seawater;

机译：CO2电催化剂;COPC分子催化剂;石墨氮化物;模拟海水;

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Toward an Understanding of the Enhanced CO_2 Electroreduction in NaCl Electrolyte over CoPc Molecule-Implanted Graphitic Carbon Nitride Catalyst

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