The Department of Materials Science and Engineering at University Of Sheffield England is hosting a workshop to explore recent developments in the area of functional materials. The Department of Materials Science and Engineering is one of the largest Materials Science centres in the UK. As such the department has a wealth of research expertise … [Read more...]
NSF Funded Research Center Holds Meeting in Japan, Strengthening Its Bond with Leading Dielectric and Piezoelectric Manufacturing Companies
The NSF-funded Center for Dielectrics and Piezoelectrics (CDP) hosted its semi-annual technical review meeting in Kyoto, Japan June … [Read more...]
2016 Spring Meeting in Kyoto Japan – A Great Success
The Spring Conference for the CDP held in Kyoto Japan on June 16-17, 2016 was a very successful event. The day and a half meeting, poster session, Buessem Award banquet and tutorial was attended by 16 member companies sending 46 … [Read more...]
CDP Fall 2015 Meeting
CDP reports it had a successful fall meeting on October 26-27, 2015, at the Raleigh Sheraton Downtown in Raleigh, North Carolina. The meeting was attended by 92 industry members and guests along with faculty from North Carolina State University, Pennsylvania State University, the University of Sheffield England and Jozef Stefan Institute in … [Read more...]
Newly Founded Center on NCSU Campus Collaborating with Duke University and University of NC Chapel Hill
What is RTNN? It is a: - A collaboration between NC State University, Duke University, and the University of North Carolina at Chapel Hill. - An interdisciplinary innovation hub for transformative nanotechnology research, fabrication, commercialization, and education. - A portal to Research Triangle resources, including both physical and … [Read more...]
CDP Researchers Create First Entropy-Stabilized Complex Oxide Alloys
Researchers from North Carolina State University and Duke University have created the first entropy-stabilized alloy that incorporates oxides – and demonstrated conclusively that the crystalline structure of the material can be determined by disorder at the atomic scale rather than chemical bonding. [Read more...]