课题组简介：

分子+研究院罗浪里课题组主要研究方向是能源材料应用中表界面过程的原子机理，着重研究异相催化（包括热催化与电催化）以及锂电池储能过程中的反应和失效机理。本组的特色以原位表征技术尤其是透射电镜技术为主要研究手段结合理论与性能研究，探索机理、推进应用。

 

近期代表性成果：

01. Lifeng Zhang, Zejian Dong, Shuangbao Wang* and Langli Luo*, Gas adsorbate-induced Au atomic segregation and clustering from Cu(Au), Sci. China Mater., 2020, accepted.

02. Yao Nian^#, Zejian Dong^#, Shuangbao Wang, Yan Wang, You Han*, Chongmin Wang* and Langli Luo*, Atomic-Scale Dynamic Interaction of H₂O Molecules with Cu Surface, Phys. Rev. Lett., 2020, 125, 156101.

03. Langli Luo*, Liang Li, Daniel K. Schreiber, Yang He, Donald R. Baer, Stephen M.  Bruemmer, Chongmin Wang*, Deciphering atomistic mechanisms of the gas-solid interfacial reaction during alloy oxidation, Science Advances, 2020, 6, 17, eaay8491.

04. Langli Luo^#*, Shuyue Chen^#, Qian Xu^#, Yang He, Zejian Dong, Lifeng Zhang, Junfa Zhu, Yingge Du, Bo Yang*, Chongmin Wang*, Dynamic atom clusters on AuCu nanoparticle surface during CO oxidation, JACS, 2020, 142, 4022-4027.

05. Langli Luo^#*, Yao Nian^#, Shuangbao Wang^#, Zejian Dong, Yang He, You Han* and Chongmin Wang*,  Real Time Atomic-scale Visualization of Reversible Copper Surface Activation during the CO Oxidation Reaction, Angew. Chem. Int. Ed., 2020, 132, 2526-2530.

 

科研方向：

一、气-固界面反应的原子机理

1. Atomic-scale Cu-H₂O interaction (Phy. Rev. Lett., 2020)

2. Cu₂O生长原子过程 (Nano Energy, 2020)

 

3. Au clustering on CuAu surface (Sci. China Mater., 2021)

 

 

二、催化剂原位动态结构

1. Supported-CuAu nanoparticles under CO oxidation (JACS, 2020)

 

2. Cu surface under CO oxidation (Angew. Chemie., 2020)