INTERESTS

Unconventional Devices

I am interested in investigating and identifying the new physical properties of nanodevices, especially using organic materials. Beyond investigation, it is also interested in applying various electrical characteristics to wearable technologies, sustainable energy, displays, and neuromorphic and bioelectronic systems.

Nanomaterials

I am interested in fundamentally researching emerging nanomaterials, such as carbon nanotubes, nanoparticles, protein, and 2-D materials like graphene, to create a new electrical platform. I am also interested in the substance and properties of organic semiconductors. Although organic semiconductors have advantages in processes and are easy to produce flexible devices, they have disadvantages in terms of characteristics such as lower mobility than inorganic materials and the accuracy of organic semiconductor processes. Therefore, the comprehensive study of high-performance-constrained factors and the study of organic materials are also significant concerns.

Theoretical Modeling

According to Moore's Law, devices have been highly integrated, and new devices based on new materials are often difficult to understand from a theoretical perspective. To this end, it is interested in quantitative and analytical modeling that conceptualizes the physical and chemical phenomena essential in new devices. In addition, this modeling will play an essential role in predictive simulation and parameterization.

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