In September 2014, CRISP hosted a public lecture to school children and their parents entitled “How Things Work: The Nano of Computers” by Prof. Sohrab Ismail-Beigi, which described how common electronic devices such as computers and cell phones work. The event also featured hands-on demonstrations for participants that included electronic storage, light emitting devices, deconstructed computer processors, and memory devices.

The field of spintronics, which involves the design of novel electronic devices that utilize the spin of electrons, requires researchers to develop a robust source of spin-polarized currents to fuel future technology. 

Atom probe tomography for 3D discovery

The Nobel Prize in Physics 2014 was shared by UCSB Professor Shuji Nakamura "for the invention of efficient blue light-emitting diodes which has enabled bright and energy-saving white light sources".  Professor Nakamura is a major user of the Shared Experimental Facilities of the UCSB MRSEC, co-authoring multiple publications every year that acknowledge the NSF-MRSEC grant number DMR 1121053.  

On November 10 and 17, 2015, 18 teachers visited the Princeton Center for Complex Materials as part of Teacher Prep's program to learn about materials science and how to apply it to the classroom. This unique PCCM program is part of a larger "Teachers as Scholars" initiative as part of Princeton University's Teacher Preparation program.

MRSEC faculty at Princeton University and the University of Delaware co-hosted a virtual symposium celebrating early-career researchers in Soft and Biological Matter with a focus on those from underrepresented groups.

Novel Multidimensional Visible Light Spectroscopy Tracks Optical Excitations

A conventional laser consists of three main components: a gain medium, a cavity, and an energy source. Researchers at Princeton and the University of Maryland Joint Quantum Institute have demonstrated a nanoscale laser that is driven by a single electron tunneling events.