公司研究生宋孟臣为第一作者的研究成果“Unraveling the degradation mechanism for the hydrogen storage property of Fe nanocatalyst-modified MgH2”在《Inorganic Chemistry Frontiers》上发表

作者: 发布时间:2022-07-26动态浏览次数:594

近期,由公司研究生宋孟臣为第一作者的研究成果Unraveling the degradation mechanism for the hydrogen storage property of Fe nanocatalyst-modified MgH2在《Inorganic Chemistry Frontiers》上发表。

论文简介如下:

Maintaining fast hydrogen storage kinetics is a key challenge for the practical application of MgH2. To address this challenge, understanding the mechanism of kinetics declining during cycling is crucial but has not been systematically investigated to date. In this paper, three different Fe nanocatalysts were synthesized and then doped into MgH2 to form new composites. The MgH2-Fe composite had significantly reduced operating temperatures and activation energy compared to that of undoped MgH2.During cycling, a capacity retention of 93.4 % was obtained after the 20th cycle. For better understanding of the declining performance, a prolonged incubation was intentionally conducted. Grain growth was found in MgH2 and Fe nanocatalysts, which was directly responsible for the capacity loss and kinetic degradation. These findings provide fundamental insights to facilitate designing and preparing catalytic hydrogen storage systems with superior cycling performance.

本文下载地址:

https://pubs.rsc.org/en/content/articlelanding/2022/qi/d2qi00863g