Electrochemical conversion of NO3- into ammonia (NH3) recycles nitroge的简体中文翻译

Electrochemical conversion of NO3-

Electrochemical conversion of NO3- into ammonia (NH3) recycles nitrogen and offers a route to NH3 production that is more valuable than dinitrogen gas. However, today’s development of NO3- electroreduction remains hindered by the lack of a mechanistic picture of how catalyst structure may be tuned to enhance catalytic activity. Here we demonstrate enhanced nitrate reduction reaction (NO3-RR) performance on Cu50Ni50 alloy catalysts, including a 0.12 V upshift in the half-wave potential and a 6-fold increase in activity compared to pure Cu at 0 V vs. reversible hydrogen electrode (RHE). Ni alloying enables tuning of the Cu d-band center and modulates the adsorption energies of intermediates such as *NO3-, *NO2, and *NH2. Using density functional theory (DFT) calculations, we identify a NO3-RR-to-NH3 pathway and offer an adsorption energyactivity relationship for the CuNi alloy system. This correlation between catalyst electronic structure and NO3-RR activity offers a design platform for further development of NO3-RR catalysts.
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结果 (简体中文) 1: [复制]
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将NO3-电化学转化为氨(NH3)可以回收氮,并提供了一种生产NH3的途径,该途径比二氮气更有价值。然而,由于缺乏有关如何调节催化剂结构以增强催化活性的机制图,现在仍阻碍了NO3-电还原的发展。在这里,我们证明了在Cu50Ni50合金催化剂上硝酸盐还原反应(NO3-RR)的性能得到了增强,与纯铜在0 V时相比,可逆氢电极相比,半波电势上调了0.12 V上移,活性提高了6倍( RHE)。Ni合金化可调节Cu d带中心并调节* NO3-,* NO2和* NH2等中间体的吸附能。使用密度泛函理论(DFT)计算,我们确定了NO3-RR-NH3路径,并提供了CuNi合金系统的吸附能活度关系。催化剂电子结构与NO3-RR活性之间的这种关联为NO3-RR催化剂的进一步开发提供了一个设计平台。
正在翻译中..
结果 (简体中文) 2:[复制]
复制成功!
Electrochemical conversion of NO3- into ammonia (NH3) recycles nitrogen and offers a route to NH3 production that is more valuable than dinitrogen gas. However, today’s development of NO3- electroreduction remains hindered by the lack of a mechanistic picture of how catalyst structure may be tuned to enhance catalytic activity. Here we demonstrate enhanced nitrate reduction reaction (NO3-RR) performance on Cu50Ni50 alloy catalysts, including a 0.12 V upshift in the half-wave potential and a 6-fold increase in activity compared to pure Cu at 0 V vs. reversible hydrogen electrode (RHE). Ni alloying enables tuning of the Cu d-band center and modulates the adsorption energies of intermediates such as *NO3-, *NO2, and *NH2. Using density functional theory (DFT) calculations, we identify a NO3-RR-to-NH3 pathway and offer an adsorption energyactivity relationship for the CuNi alloy system. This correlation between catalyst electronic structure and NO3-RR activity offers a design platform for further development of NO3-RR catalysts.
正在翻译中..
结果 (简体中文) 3:[复制]
复制成功!
NO3-电化学转化为氨(NH3)回收氮气,为NH3的生产提供了一条比氮气更有价值的途径。然而,由于缺乏对如何调整催化剂结构以提高催化活性的机制性描述,NO3电还原的发展仍然受到阻碍。在这里,我们证明了在Cu50Ni50合金催化剂上硝酸盐还原反应(NO3-RR)性能的增强,包括半波电位的0.12v上升和活性比纯铜在0v和可逆氢电极(RHE)下提高6倍。镍合金化可以调节铜的d-带中心,调节诸如*NO3-、*NO2和*NH2等中间产物的吸附能。利用密度泛函理论(DFT)计算,我们确定了NO3-RR-to-NH3路径,并给出了CuNi合金体系的吸附能-活度关系。催化剂电子结构与NO3-RR活性的相关性为NO3-RR催化剂的进一步开发提供了设计平台。<br>
正在翻译中..
 
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