People
Zhichang LiuWestlake University, SKCM² Affiliate Member
Contra-helical knots, molecular-strain engineering
Affiliations
Associate Professor with tenure, Department of Chemistry, Westlake University, China
liu_at_westlake.edu.cn
Bio
My research has focused mainly on molecular-strain engineering (MSE) for uncovering the modulation mechanisms behind the impact of strain on behaviors and properties of molecules.
What I like about my science: I am drawn to molecular-strain engineering because of its fascinating nature and the numerous benefits it offers to scientists and researchers in this field. Some of the key aspects that I appreciate about this area of research are: Molecular-strain engineering provides a unique platform for innovation and discovery. By designing and manipulating the strain in molecules, researchers can develop new materials and functional properties. Precise control over the strain in molecules allows for the tuning of their mechanical, electrical, and optical properties. This level of control creates opportunities to tailor materials for specific applications and functionalities. The principles of molecular-strain engineering are applicable across various disciplines, including materials science, chemistry, and nanotechnology. This versatility allows for the design of sensors, electronic devices, drug delivery systems, and more. Studying molecular strain involves understanding the fundamental interactions and behavior of molecules at a microscopic level. This exploration deepens our knowledge of molecular dynamics and contributes to the advancement of scientific understanding. The discoveries and advancements in molecular-strain engineering have the potential to impact diverse fields, such as energy storage, catalysis, biomedicine, and electronics. This opens up possibilities for developing innovative technologies and solutions that can benefit society. Overall, I find molecular-strain engineering to be a highly intriguing and valuable field of research. Its potential for innovation and practical applications offers exciting opportunities for further exploration and development.
Zhichang's Website
What I like about my science: I am drawn to molecular-strain engineering because of its fascinating nature and the numerous benefits it offers to scientists and researchers in this field. Some of the key aspects that I appreciate about this area of research are: Molecular-strain engineering provides a unique platform for innovation and discovery. By designing and manipulating the strain in molecules, researchers can develop new materials and functional properties. Precise control over the strain in molecules allows for the tuning of their mechanical, electrical, and optical properties. This level of control creates opportunities to tailor materials for specific applications and functionalities. The principles of molecular-strain engineering are applicable across various disciplines, including materials science, chemistry, and nanotechnology. This versatility allows for the design of sensors, electronic devices, drug delivery systems, and more. Studying molecular strain involves understanding the fundamental interactions and behavior of molecules at a microscopic level. This exploration deepens our knowledge of molecular dynamics and contributes to the advancement of scientific understanding. The discoveries and advancements in molecular-strain engineering have the potential to impact diverse fields, such as energy storage, catalysis, biomedicine, and electronics. This opens up possibilities for developing innovative technologies and solutions that can benefit society. Overall, I find molecular-strain engineering to be a highly intriguing and valuable field of research. Its potential for innovation and practical applications offers exciting opportunities for further exploration and development.
Zhichang's Website