Recent efforts has focused primarily on the role of consolidation for motor memory development has used behavioral assessment combined with imaging and non-invasive brain stimulation (e.g., TMS, tDCS) approaches. Focus is on describing the nature of and manner in which behavioral and neurophysiological changes occur as a result of practice and non-practice variables with the intent of informing both theoretical and clinical advancement. However, a great deal of evolution of novel motor memories occurs outside of the context of practice. The intended participants of the summer school are students within computer science, or students with mathematics or economics background interested in game theory and social choice. Our interests in energy harvesting and conversion and multifunctional materials include the development of new ferroelectric polymers and polymer nanocomposites for piezoelectric energy harvesting, development of the multiferroic nanocomposites composed of ferroelectric polymer matrix and ferromagnetic nanoparticles for investigation of the coupling of the magnetic and electric properties, development of ferroelectric polymer nanocomposites exhibiting giant electrocaloric effect for solid-state cooling, and synthesis of conjugated block polymers for photovoltaics.Practice is a crucial component contributing to skill acquisition and rehabilitation commonly resulting in quicker, more accurate, and less variable motor memories. The summer school is organized by Department of Computer Science, City University of Hong Kong via zoom during June 26 - July 2, 2023. Our battery research program includes the synthesis and characterization of polymer based nonflammable electrolytes for next-generation lithium ion batteries. Our current efforts in capacitive energy storage involve the synthesis and characterization of nanostructured ferroelectric polymers with tunable dielectric properties and development of polymer nanocomposites with high energy densities and large breakdown strengths. The research is highly multidisciplinary at the interface of several fields, including polymer and materials chemistry, structural characterization, materials processing, physical property measurement, and device engineering.Įlectrical energy storage plays an essential role in advanced electronics and electrical power systems such as portable electronics, electric vehicles and smart grids. The projects aim to improve fundamental understanding of polymers and polymer nanocomposites by investigating how molecular, macromolecular and multiple-scale assembled structures influence macroscopic physical properties. Wang’s laboratory are centered on using chemical and material engineering approaches towards the development of novel functional polymers and polymer nanocomposites with unique physical properties. Graduate students in the IGDP in MatSE may work with faculty members from across Penn State. This faculty member is associated with the Penn State Intercollege Graduate Degree Program (IGDP) in Materials Science and Engineering (MatSE) where a multitude of perspectives and cross-disciplinary collaboration within research is highly valued. His current research interests are the development of multifunctional polymers and polymer nanocomposites for applications in energy storage and conversion. Jian Xu from Penn State University for some collaborative works on characterizing lasing. He received the Rustum and Della Roy Innovation in Materials Research Award in 2007, NSF CAREER Award in 2006, and Virginia S. He was a postdoctoral associate in the Materials Science and Engineering Department at Cornell University from 2000 – 2002, and joined the Pennsylvania State University in 2002. in Chemistry from The University of Chicago. in Chemistry from Wuhan University (Wuhan, China) and Ph.D. in Materials Science and Engineering from East China University of Science and Technology (Shanghai, China), M.S.
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