Chia-Her Lin studied Chemistry at National Chung Hsing University in Taichung from 1992 to 1998 where he obtained his Bachelor of Science (B.S.) and Master of Science (M.S.) degrees. He joined the Department of Chemistry at National Tsing Hua University in Hsinchu, and received his Ph.D. degree in 2002 under Prof. Sue-Lein Wang’s group, wherein the research field focuses on porous and photo-luminescent metal phosphates.​

After graduation, he finished his military duty in 2004, and re-joined Prof. Sue-Lein Wang’s group as a postdoctoral scholar. In the latter part of 2005, he continued his postdoctoral scholarship at Michigan State University under Prof. Mercouri G. Kanzatzidis and learned more about Solid State Chemistry.​

In 2006, he was appointed Assistant Professor of Chemistry at Chung Yuan Christian University. In 2010, he was named Associate Professor, and in 2013, he was promoted to Professor. Professor Lin has educated more than 30 M.S. degree students, 3 PhD students, and 2 postdoctoral fellows. He is the author of more than 100 scientific papers in the fields of inorganic chemistry, metal phosphates, and metal-organic frameworks. ​

In 2019 August, he joined the Department of Chemistry at National Taiwan Normal University.

Metal organic frameworks (MOFs), including its synthesis and characterization, are among the rapidly growing and developing areas of inorganic chemistry. Porous MOF materials are highly crystalline organic-inorganic composite complexes, which may be comprised of a secondary building unit (SBU) by metal ions or metal-containing clusters, assembled with a multitude of organic ligands by coordination. These porous materials undoubtedly have many practical applications with enormous potential including traditional applications such as gas storage, separation, and catalysis, which are mainly due to the size and shape of their pores. In addition, porous materials are now being employed for biomedical applications such as sensors, which are now frontiers in further academic researches. Our laboratory research focuses on the synthesis and characterization of porous MOFs, and further testing during gas storage or separation, catalysis, green recycling for carbon dioxide, energy conversion, and other related applications. In the study of these novel solid compounds, graduate students will be able to learn a variety of material analysis methods, such as single crystal X-ray diffraction, and powder X-ray diffraction, thermal analysis, gas adsorption, solid-state infrared optical / ultraviolet spectrometer, fluorescence spectrometer, superconducting quantum interference device, solid-state nuclear magnetic resonance, scanning/transmission electron microscope, and many more.