1. Developing an analytical model, computational methods, and optimization on nanoscale electronics devices and sensor by incorporating the external parameters such as an electric field, magnetic field, radiation, induced defects, etc.
2. Employing the unique nanostructure and the novel two-dimensional materials such as graphene in conjunction with the ballistic electron transport to further explore the physical properties of nanoscale MOSFETs, nanoscale vacuum structure, for example, Graphene-based devices to discover innovative devices.
3. Developing the atmospheric hybrid non-thermal (cold) plasma applications based on the field electron emission from cathode under experience to the high electric field. An atmospheric hybrid cold plasma will be generated by employing the benefit of fringe field inducing corona discharge on tips edges in conjunction with the dielectric barrier discharge (DBD) for surface modification.
