In response to the evolving frontiers of modern chemistry, the field of Physical Chemistry pursues a broad spectrum of research themes that integrate both experimental and theoretical methodologies to investigate the intrinsic properties of matter. Current endeavors include fundamental theoretical studies on the nature of physical and chemical phenomena, the development and application of ab initio computational programs, and the establishment of computer-aided molecular design frameworks that combine molecular mechanics and quantum mechanical energy functions. Employing these advanced methodologies, researchers are engaged in elucidating chemical reactions and material states, as well as developing novel reaction mechanisms and experimental techniques.

Ongoing research topics encompass high-pressure reaction studies, structure–property correlations in polymers, fabrication and characterization of molecular ultrathin films, static and dynamic properties of fluids, synthesis and characterization of polymers with unique architectures, and surface characterization of solids using advanced spectroscopic techniques. The research activities in physical chemistry form the intellectual foundation for diverse applied fields such as drug discovery, advanced materials development, and life sciences, while also serving as a cornerstone of fundamental chemical research.

In the area of Organic Chemistry, research extends beyond traditional organic synthesis to encompass rapidly advancing fields such as bio-organic chemistry, polymer chemistry, medicinal chemistry, functional materials chemistry, and enzyme chemistry. Ongoing studies include computer-aided design, synthesis, and reactivity analysis of organic molecules, reaction mechanism elucidation, and the synthesis of novel functional organic compounds. Additional research areas involve the synthesis and physicochemical characterization of functional polymeric materials, investigation of the antioxidant properties of ginseng, development of photosensitizers and antioxidant agents, as well as studies on enzyme isolation and extraction, enzyme reaction mechanisms, and nucleic acid reaction mechanisms.

Through these interdisciplinary and forward-looking research initiatives, the department aims to advance the frontiers of chemical science, bridging fundamental understanding with technological innovation to address contemporary scientific and societal challenges.