In this major, students first learn the basic laws of chemistry to build a foundation for understanding materials, and then acquire chemical and biological phenomena, laws, and advanced knowledge in the nano-level world. Based on this knowledge, students will acquire techniques for designing and developing new functional materials and substances, and conduct education and research from both experimental and theoretical perspectives. Through these experiments and research activities, students will acquire the ability to play an active role in a wide range of industrial fields, including chemistry, electronics, and mechanics, as well as in-depth specialized knowledge and sound ethical standards.
Research Keywords
Inorganic synthetic chemistry, Inorganic structural chemistry, Surface chemical modification, Quantum chemical calculation, Nanowire molecules, Molecular crystal dynamics, Molecular probes, Rare metal recovery, Molecular and ion recognition, Organic functional materials, Typical organic element chemistry, Organic electronic materials, Fluorescent nanomaterials, Cell function control, Ion sensors for biological samples
Research Introduction
The Inorganic and Coordination Chemistry Laboratory mainly targets peroxopolyoxometalates, which are peroxides of metal (W, Mo, V) oxygenic acid aggregates (almost the only one in the world!). Our research interests range from the synthesis, structure determination, and formation reaction analysis of these new compounds to their application to solid-state materials (storage, optics, magnetism, etc.), catalysis, and biochemistry.
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The Biochemistry Laboratory aims to create new molecular tools with the keyword "examine and manipulate biomolecules. For example, we are working on the development of a gene detection system more efficient than PCR and a fluorescent dye that enables intracellular imaging of the behavior of the enigmatic quadruplex DNA.
