和怡雯(Yiwen He)
于2019年毕业于武汉大学化学与分子科学学院,获学士学位,同年进入匹兹堡大学化学系攻读博士学位,师从Nathaniel L. Rosi教授。她的研究主要围绕金属有机框架材料的设计与合成,聚焦于核壳结构在直接空气捕集二氧化碳中的应用、层状MOF中的配体交换调控,以及各向异性多域MOF的可控构筑。以**作者或合作者在 J. Am. Chem. Soc.、ACS Appl. Mater. Interfaces、Chem. Sci. 等期刊发表多篇论文,并多次参加ACS、GRC等国际学术会议。
Dr. He graduated from the College of Chemistry and Molecular Sciences at Wuhan University in 2019 with a bachelor’s degree and enrolled in the Department of Chemistry at the University of Pittsburgh the same year to pursue a doctoral degree under the supervision of Professor Nathaniel L. Rosi. Her research focuses on the design and synthesis of metal–organic frameworks (MOFs), with an emphasis on the application of core–shell structures in direct air capture of carbon dioxide, ligand exchange modulation in layered MOFs, and the controlled construction of anisotropic multidomain MOFs. She has published multiple papers as the first author or co-author in journals such as J. Am. Chem. Soc., ACS Appl. Mater. Interfaces, and Chem. Sci., and has participated in numerous international conferences including ACS and GRC.
BOUDIA MOHAMED EL AMINE
Dr. BOUDIA MOHAMED EL AMINE is currently a Postdoctoral Researcher in the field of functional materials for optoelectronics, with a focus on the design and characterization of functional hybrid materials for lead free metal halide hybrid LED and X-ray scintillators for medical applications. His research interests lie at the intersection of inorganic chemistry, soft matter, and spectroscopy, where he explores how molecular-level interactions influence macroscopic properties such as optical response and energy transfer.
He received his Ph.D. in Engineering Thermophysics from Xi'an Jiaotong University, where his work centered on enhancement of the power conversion efficiency of bulk-heterojunction inverted ternary organic solar cells where he focused on optimization of the active layer thickness for inverted ternary organic solar cells, enhancing the performance of the device through interface engineering for the inverted devices and studied the integration of SnO2 in the inverted ternary organic solar cells in order to enhance the efficiency and thermal stability.
In his current role, his research focuses on developing advanced materials for applications in areas such as scintillation, sensing, and optoelectronics. He is particularly interested in understanding how the integration of lead free metal complexes into organic hybrid LED emitters and scintillators can lead to emergent properties and improved performance.
Cheng Jun
Cheng Jun received his undergraduate education at Jianghan University, where he was conferred a Bachelor of Engineering degree in Materials Science and Engineering. In parallel, he completed and was awarded the Bachelor of Science degree in Advanced Chemical Sciences from the University of Liverpool.
He is a forthcoming Doctor of Philosophy in Chemistry at the University of Liverpool, having successfully submitted his doctoral thesis and passed the viva voce examination. His doctoral research is primarily dedicated to the design and synthesis of small organic luminescent molecules. Through rational molecular design and engineering, his work aims to improve the luminescent properties of target materials, encompassing photoluminescence, electroluminescence, and electrochemiluminescence.
Gohar Ijaz Dar
Gohar Ijaz Dar obtained his Bachelor’s degree in Physics form University of Wah, Pakistan, in 2015, and Master’s degree in Materials physics and Chemistry from Ningbo Institute of Materials Technology, Chinese Academy of Sciences CAS, China in 2020. During his stay in China, he worked on hybrid Nano materials and specified thesis on Image Guided Photo Thermal Therapy of cancer cells. He completed his PhD in 2025 from Universitat Rovira I Virgili, Spain as a recipient of the highly competitive Marie Curie COFUND Fellowship. His Ph.D. thesis was focused on Advanced nanoporous structures for photonic biosensors. Highly skilled in nanoporous anodic alumina and sputtering techniques, as well as synthesizing of single, hybrid, Janus nanomaterials, magnetic nanoparticles, porous materials for biosensing and biomedical applications. He developed material-light interactions at the nanoscale to enable highly sensitive and selective molecular SERS detection during his PhD study, which focused on the development of sophisticated nanophotonic frameworks for biosensing. He is currently working on the advancement of next-generation Hybrid diagnostic technologies by bridging nanomaterials engineering with precise molecular sensing and diagnostics strategies. Based on Master and Doctoral projects, he had published articles, review articles and book chapters in well renowned journals.
Liang Zheng
Liang Zheng obtained his Master of Engineering degree from Wuhan Polytechnic University in 2016. He then worked at the Medical School of Jianghan University, engaging in laboratory management and scientific research. During his tenure, he published six SCI papers in the field of medicine as the first author or co-first author. In September 2024, he began his doctoral studies in Chemistry, Materials and Engineering under the supervision of Professor Wang Hongbo. At present, Liang Zheng is responsible for the daily management of the research group laboratory, and conducts research on the application of organic luminescent materials in biomedical imaging.
Zhihong Sun
Zhihong Sun received her B.E. from Hebei University of Technology and her master’s degree from Tianjin University. She earned her Ph.D. from South China University of Technology in 2025. Currently, she is conducting her postdoctoral research at Jianghan University under the supervision of Prof. Zhangfeng Hu and Prof. Hong-Bo Wang. Her research interest focuses on the design and synthesis of functional luminescent materials and their applications in bioimaging, theranostics and optoelectronics.
