Your search keyword '"Liu, Yuxin"' showing total 2 results

1. Graphdiyne Interface Engineering: Highly Active and Selective Ammonia Synthesis.

Author

Fang, Yan, Xue, Yurui, Li, Yongjun, Yu, Huidi, Hui, Lan, Liu, Yuxin, Xing, Chengyu, Zhang, Chao, Zhang, Danyan, Wang, Zhongqiang, Chen, Xi, Gao, Yang, Huang, Bolong, and Li, Yuliang

Subjects

*CATALYTIC activity, *AMMONIA, *ELECTROLYTIC reduction, *CATALYSTS, *ATMOSPHERIC pressure, *ENGINEERING

Abstract

A freestanding 3D graphdiyne–cobalt nitride (GDY/Co2N) with a highly active and selective interface is fabricated for the electrochemical nitrogen reduction reaction (ECNRR). Density function theory calculations reveal that the interface‐bonded GDY contributes an unique p‐electronic character to optimally modify the Co‐N compound surface bonding, which generates as‐observed superior electronic activity for NRR catalysis at the interface region. Experimentally, at atmospheric pressure and room temperature, the electrocatalyst creates a new record of ammonia yield rate (YNH3) and Faradaic efficiency (FE) of 219.72 μg h−1 mgcat.−1 and 58.60 %, respectively, in acidic conditions, higher than reported electrocatalysts. Such a catalyst is promising to generate new concepts, new knowledge, and new phenomena in electrocatalytic research, driving rapid development in the field of electrocatalysis. [ABSTRACT FROM AUTHOR]

Published

2020

2. Fluorographdiyne: A Metal‐Free Catalyst for Applications in Water Reduction and Oxidation.

Author

Xing, Chengyu, Xue, Yurui, Huang, Bolong, Yu, Huidi, Hui, Lan, Fang, Yan, Liu, Yuxin, Zhao, Yingjie, Li, Zhibo, and Li, Yuliang

Subjects

*OXIDATION of water, *HYDROGEN evolution reactions, *DENSITY functional theory, *WELL water, *CATALYSTS, *OXYGEN evolution reactions

Abstract

A highly efficient bifunctional metal‐free catalyst was prepared by growth of three‐dimensional porous fluorographdiyne networks on carbon cloth (p‐FGDY/CC). Our experiments and density functional theory (DFT) calculations show the 3D p‐FGDY/CC network is highly active and it is a high potential metal‐free catalyst for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), as well as overall water splitting (OWS) under both acidic and alkaline conditions. The experimental and theoretical results show very good consistency; for example, in the HER process, p‐FGDY/CC exhibits small overpotentials of 82 and 92 mV to achieve 10 mA cm−2 under alkaline and acidic conditions, respectively. This ensures an even higher selectivity for the adsorption/desorption of various O/H intermediate species. The essential key promotion accomplishes a bifunctional H2O redox performance application under pH‐universal electrochemical conditions. [ABSTRACT FROM AUTHOR]

Published

2019