Ambient ammonia production via electrocatalytic nitrite reduction catalyzed by a CoP nanoarray

Guilai Wen; Jie Liang; Qian Liu; Tingshuai Li; Xuguang An; Fang Zhang; Abdulmohsen Ali Alshehri; Khalid A. Alzahrani; Yonglan Luo; Qingquan Kong; Xuping Sun

doi:10.1007/s12274-021-3583-9

Ambient ammonia production via electrocatalytic nitrite reduction catalyzed by a CoP nanoarray

Guilai Wen(China West Normal University), Jie Liang(University of Electronic Science and Technology of China), Qian Liu(Chengdu University), Tingshuai Li(University of Electronic Science and Technology of China), Xuguang An(Chengdu University), Fang Zhang(National Engineering Research Center for Nanotechnology), Abdulmohsen Ali Alshehri(King Abdulaziz University), Khalid A. Alzahrani(King Abdulaziz University), Yonglan Luo(China West Normal University), Qingquan Kong(Chengdu University), Xuping Sun(University of Electronic Science and Technology of China)

Nano Research

June 9, 2021

10.1007/s12274-021-3583-9

Cited by 159

Abstract

Industrial-scale ammonia (NH3) production mainly relies on the energy-intensive and environmentally unfriendly Haber-Bosch process. Such issue can be avoided by electrocatalytic N2 reduction which however suffers from limited current efficiency and NH3 yield. Herein, we demonstrate ambient NH3 production via electrochemical nitrite (NO2−) reduction catalyzed by a CoP nanoarray on titanium mesh (CoP NA/TM). When tested in 0.1 M PBS (pH = 7) containing 500 ppm NO2−, such CoP NA/TM is capable of affording a large NH3 yield of 2,260.7 ± 51.5 µg·h−1·cm−2 and a high Faradaic efficiency of 90.0 ± 2.3% at −0.2 V vs. a reversible hydrogen electrode. Density functional theory calculations reveal that the potential-determining step for NO2− reduction over CoP (112) is *NO2 → *NO2H.

Related Papers

No related papers found

Powered by citation graph analysis