报告题目——Unveiling the material’s photo/electrochemical properties correlated with its electronic structures
时间:2025-06-29 13:30
地点:综A401
讲座人:苏大为
主持人:胡小颖
组织单位:材料科学与工程学院
讲座人简介:墨尔本皇家理工(RMIT)大学,科学学院,应用化学与环境系终身教授。主要研究方向为能源转化材料的合成、表征、定量分析与功能性开发,应用量子力学、密度泛函理论及分子动力学从原子及电子尺度进行理论及机理研究。承担澳大利亚自然科学基金,优秀青年科学基金等多项科研项目,发表包括Advanced Materials, Science Advances, Advanced Energy Materials在内的SCI高水平论文200余篇,引用超过18000次,h指数70,为InfoMat (Wiley)、Nano Research Energy、Nanomaterials、Frontiers in Chemistry: Inorganic Chemistry、Rare Metals等多个期刊的编委,在2021年被研究杂志“澳大利亚人”评为“材料工程未来新星和领导者”。
他负责的科研项目(包括 ARC DECRA、DP、LP、LIFE 的项目以及 ARENA、CRC、CRC 等项目)旨在通过结合原位光谱学和理论研究来揭示材料与其电子结构相关的电化学或光化学特性。他推动了在设计具有化学和结构可调性的材料以及揭示材料特性对电(光)化学性能影响方面取得的突破性进展。
讲座观点:Abstract: Structure (from atomic and electronic level)-performance correlation demonstrates the crucial impact of complex surface chemistry and nanostructure on photo/electrochemical performance, which is also a persistent barrier for rationally designing photo/electrode materials. To rational design materials for their superior photo/electrochemical properties can only rely on the unveiling of the correlation between their electronic structures' evolution along the testing processes. Therefore, from the electronic level to develop the spatial- and time-resolved light interaction technology can the photo/electrochemical reactions processes be deeply understood. Therefore, here I showcase several recent works about investigating the intrinsic properties of the materials correlated with their subtle micro-structure variation, including[1-3].
References:
[1] Advanced Energy Materials. First published: 14 May 2024 https://doi.org/10.1002/aenm.202400590
[2] Advanced Functional Materials. First published: 19 May 2024 https://doi-org.ezproxy.lib.uts.edu.au/10.1002/adfm.202404585
[3] Advanced Materials. Volume36, Issue19 May 9, 2024, 2400237
