Highly Productive Electrosynthesis of Ammonia by Admolecule-Targeting Single Ag Sites

Chen Ying; Guo Ruijie; Peng Xianyun; Wang Xiaoqian; Liu Xijun; Ren Junqiang; He Jia; Zhuo Longchao; Sun Jiaqiang; Liu Yifan; Wu Yuen; Luo Jun

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Highly Productive Electrosynthesis of Ammonia by Admolecule-Targeting Single Ag Sites

机译：通过食用细胞靶向单AG位点高生产氨的氨的电气合成

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The ambient electrocatalytic N, reduction reaction (NRR) is a promising alternative to the Haber-Bosch process for producing NH3. However, a guideless search for single-atom-based and other electrocatalysts cannot promote the NH 3 yield rates by NRR efficiently. Herein, our first-principles calculations reveal that the successive emergence of vertical end-on *N-2 and oblique end-on *NNH admolecules on single metal sites is key to high-performance NRR. By targeting the admolecules, single Ag sites with the Ag-N-4 coordination are found and synthesized massively. They exhibit a record-high NH3 yield rate (270.9 mu g h(-1) mg(cat),(-1) or or 69.4 mg h(-1) mg(Ag)(-1)) - and a desirable Faradaic efficiency (21.9%) in HCl aqueous solution under ambient conditions. The generation rate of NH3 is stable during 20 consecutive reaction cycles, and the reduction current density is almost constant for 60 h. This work provides an effective targeting-design principle to purposefully synthesize active and durable single-atom-based NRR electrocatalysts.

机译：环境电催化N，还原反应（NRR）是对生产NH3的HABER-BOSCH方法的有希望的替代方法。然而，对单射的基于原子和其他电催化剂的无意看搜索不能有效地通过NRR促进NH 3产量率。在此，我们的第一原理计算表明，单个金属位点上的垂直端ON和斜端末端* NNH核心的连续出现是高性能NRR的关键。通过靶向诱导群组，具有AG-N-4配位的单AG位点并大规模地合成。它们表现出历史新高的NH 3产率（270.9μg（-1）mg（猫），（ - 1）或或69.4 mg h（-1）mg（ - Ag）（ - 1）） - 以及所需的野生效率（21.9％）在环境条件下HCl水溶液中。在20个连续的反应循环期间，NH 3的产生率稳定，并且还原电流密度几乎恒定为60小时。这项工作提供了有效的靶向设计原理，可故意合成基于主动和耐用的单射脉的NRR电催化剂。

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《ACS nano》 |2020年第6期|共9页
作者
Chen Ying; Guo Ruijie; Peng Xianyun; Wang Xiaoqian; Liu Xijun; Ren Junqiang; He Jia; Zhuo Longchao; Sun Jiaqiang; Liu Yifan; Wu Yuen; Luo Jun;
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作者单位

Tianjin Univ Technol Sch Mat Sci &

Engn Ctr Electron Microscopy Tianjin 300384 Peoples R China;

Tianjin Univ Technol Sch Mat Sci &

Engn Ctr Electron Microscopy Tianjin 300384 Peoples R China;

Tianjin Univ Technol Sch Mat Sci &

Engn Ctr Electron Microscopy Tianjin 300384 Peoples R China;

Univ Sci &

Technol China CAS Ctr Excellence Nanosciencc Sch Chem &

Mat Sci iChEM Hefei 230026 Peoples R China;

Tianjin Univ Technol Sch Mat Sci &

Engn Ctr Electron Microscopy Tianjin 300384 Peoples R China;

Lanzhou Univ Technol State Key Lab Adv Proc &

Recycling Nonferrous Met Lanzhou 730050 Peoples R China;

Tianjin Univ Technol Sch Mat Sci &

Engn Ctr Electron Microscopy Tianjin 300384 Peoples R China;

Xian Univ Technol Sch Mat Sci &

Engn Xian 710048 Peoples R China;

Chinese Acad Sci Inst Coal Chem State Key Lab Coal Convers Taiyuan 030001 Peoples R China;

Shenzhen Univ Coll Phys &

Optoelect Engn Shenzhen 518060 Peoples R China;

Univ Sci &

Technol China CAS Ctr Excellence Nanosciencc Sch Chem &

Mat Sci iChEM Hefei 230026 Peoples R China;

Tianjin Univ Technol Sch Mat Sci &

Engn Ctr Electron Microscopy Tianjin 300384 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类分子物理学、原子物理学;
关键词
nitrogen fixation; admolecule-targeting; electrocatalysis; single Ag sites; ambient conditions;

机译：氮固定;靶向注射;电催化;单AG位点;环境条件;

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Highly Productive Electrosynthesis of Ammonia by Admolecule-Targeting Single Ag Sites

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