Recent experimental and theoretical work shows that it is possible to make doubly charged excitons in bilayer structures of two-dimensional (2D) materials.
This theoretical effort is to develop the quantum electrodynamics (QED) formalism and study the optical properties for chiral ultrathin metasurfaces (MSs) of precisely controlled variable thickness
The overarching goals of this Partnership for Research and Education in Materials (PREM) are to advance institutional research and educational capabilities in materials at NCCU and to str
Photodetection over a broad spectral range, especially in both infrared (IR) and deep ultra-violet spectral regions, is crucial for optoelectronic applications such as sensing, imaging and communic
North Carolina Central University (NCCU) and the University of North Carolina at Chapel Hill (UNC Chapel Hill) have been jointly awarded a $250,000 grant from the Alfred P.
This project focuses on the development of the theoretical understanding of intrinsic electronic processes and interactions in transdimensional heterostructures.
In this effort, intrinsic mechanisms of spectroscopic detection, molecular sensing, and control will be explored for planar closely packed periodic carbon nanotube arrays using ri
The disproportionally low representation of minority groups in the STEM workforce makes us reassess the current practices used and places unique pressures on finding creative and practical methods
The researchers propose a program in nuclear Compton scattering to carry out a series of measurements that will perform stringent tests of the predictions of Chiral Effective Field Theories (EFT),