The mission of the Center for Two Dimensional and Layered Materials is to conduct leading international and multidisciplinary research on 2D layered materials aiming at finding new phenomena and applications, that could be transformed into high impact products. The center offers a unique, vertically integrated research education to graduate and undergraduate students, with extremely valuable components including state-of-the-art infrastructure, and research environment.
The Mallouk group at PennState takes a building block or 'Lego' approach to the synthesis of interesting inorganic materials from the bottom up. Some of this research is very fundamental in nature and is designed to learn the rules of assembly of objects on the nanometer and micron length scales.
The Nanotechnology minor is designed to help prepare students from diverse disciplines for careers in a broad range of industries innovating with nanotechnology. The minor builds on the singular strengths of Penn State's nanofabrication facilities including its class 1 and class 10 clean rooms, its faculty, and existing academic programs. The minor provides students with fundamental knowledge and skills in simulation, design, modeling, syntheses, characterization, properties, processing, manufacturing, and applications at the nano scale.
NTI is a collaboration led by Ben Franklin Technology Partners of Southeastern Pennsylvania, Drexel University and The University of Pennsylvania. It is the first comprehensive model of its kind designed to facilitate the research, development and commercialization of nanotechnology's real world applications.
The research of the Fischer group at the University of Pennsylvania, Department of Materials Science and Engineering covers the novel nanomaterial systems such as carbon nanotube and semiconductor nanowires
The University of Pennsylvania's School of Engineering offers new Master of Science Degree program in Nanotechnology. The program has options for Nano Enabling Energy, Nano Enabling Medicine, Nanoelectronics and more.
The group's research lies at the interface of engineering, physics, material science, and biology with the main themes of nanophotonics and nanotechnology. Diffraction limit of light need be overcome in order for us to investigate the optical properties of matter on the nanoscale. Plasmonics, due to the interaction of light with conduction electrons in a metal nanoparticle, offers confinement of light on the nanometer scale along with the enhancement of local electric fields. These properties make plasmonics crucial for nanooptics.
The Krishna P. Singh Center for Nanotechnology integrates state-of-the-art nanocharacterization, nanofabrication, and property measurement facilities at the University of Pennsylvania. The Center houses several multi-user experimental laboratories critical to advanced research and development.
A certification in Nanoscale Science and Technology documents that a graduate student has mastered fundamental principles and practical implications in the core areas of the field. The certification program is open to all graduate students in good standing at Penn and is designed such that students in BE, CBE, ESE, MEAM, and MSE can accomplish this within their degree program, i.e. without extending the time to graduation.
The Institute of NanoScience and Engineering is an integrated, multidisciplinary organization that brings coherence to the University's research efforts and resources in the fields of nanoscale science and engineering.