用于将CO电还原为CO的原子级分散的s族镁位点
Atomically Dispersed s-Block Magnesium Sites for Electroreduction of CO to CO.
作者信息
Wang Qiyou, Liu Kang, Fu Junwei, Cai Chao, Li Huangjingwei, Long Yan, Chen Shanyong, Liu Bao, Li Hongmei, Li Wenzhang, Qiu Xiaoqing, Zhang Ning, Hu Junhua, Pan Hao, Liu Min
机构信息
School of Physics and Electronics, Central South University, Changsha, 410083, P. R. China.
College of Chemistry and Chemical Engineering, Central South University, Changsha, 410083, P. R. China.
出版信息
Angew Chem Int Ed Engl. 2021 Nov 22;60(48):25241-25245. doi: 10.1002/anie.202109329. Epub 2021 Oct 21.
Atomically dispersed transition metal sites have been extensively studied for CO electroreduction reaction (CO RR) to CO due to their robust CO activation ability. However, the strong hybridization between directionally localized d orbits and CO vastly limits CO desorption and thus the activities of atomically dispersed transition metal sites. In contrast, s-block metal sites possess nondirectionally delocalized 3s orbits and hence weak CO adsorption ability, providing a promising way to solve the suffered CO desorption issue. Herein, we constructed atomically dispersed magnesium atoms embedded in graphitic carbon nitride (Mg-C N ) through a facile heat treatment for CO RR. Theoretical calculations show that the CO desorption on Mg sites is easier than that on Fe and Co sites. This theoretical prediction is demonstrated by experimental CO temperature program desorption and in situ attenuated total reflection infrared spectroscopy. As a result, Mg-C N exhibits a high turnover frequency of ≈18 000 per hour in H-cell and a large current density of -300 mA cm in flow cell, under a high CO Faradaic efficiency ≥90 % in KHCO electrolyte. This work sheds a new light on s-block metal sites for efficient CO RR to CO.
由于其强大的CO活化能力,原子分散的过渡金属位点已被广泛研究用于将CO电还原反应(CO RR)转化为CO。然而,定向局域的d轨道与CO之间的强杂化极大地限制了CO的脱附,从而限制了原子分散的过渡金属位点的活性。相比之下,s区金属位点具有非定向离域的3s轨道,因此CO吸附能力较弱,为解决CO脱附问题提供了一条有前景的途径。在此,我们通过简便的热处理构建了嵌入石墨氮化碳(Mg-CN)中的原子分散的镁原子用于CO RR。理论计算表明,Mg位点上的CO脱附比Fe和Co位点上的更容易。这一理论预测通过实验CO程序升温脱附和原位衰减全反射红外光谱得到了证实。结果,在KHCO3电解液中,Mg-CN在H型电解池中表现出约每小时18000的高周转频率,在流动电解池中表现出-300 mA cm-2的大电流密度,且CO法拉第效率≥90%。这项工作为s区金属位点用于高效的CO RR制CO提供了新的思路。
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