The rapidly growing attention given to interfacial phenomena has stimulated competition for the development of new tools and methods, allowing the evaluation of physicochemical or biological events at specific places that have not been investigated to date. Interfaces at the nanoscale are particularly attractive research targets because they possess tremendous potential for solving numerous previously unsolved problems. In addition to scientific significance, delving into such interfaces is widely expected to offer the opportunity to develop innovative technologies in the future. Our research focuses on new aspects of interfacial behavior, especially heterogeneous reactions and interactions involving charge transfer. This research scope is categorized into three themes: nano-interfacial electrochemistry, ion circuit/bio-interface, and 3-dimensional suspension arrays based on micro-nano gold spherical shells for high throughput multiplex microanalysis. We are interested in understanding the fundamental principles underlying apparent interfacial electrochemistry and in demonstrating the feasibility of key applications of these principles with regard to new analytical tools and energy conversion devices.
#Nanoelectrochemistry #Iontronics and Neuro-Interface #Multiplex Analysis #Instrument
