J. Narayan, North Carolina State University, Raleigh, NC
This talk will focus on self-assembly based methods for processing of novel nanostructured materials for structural, optoelectronic and magnetic systems. Special emphasis will be placed on nano-scale characterization of atomic structure, chemistry and bonding characteristics of nanostuctures with a resolution of 0.16nm to establish structure-property correlations. Modeling of these unique structures has been carried out to evaluate system level performance. A specific example of naotechnology to manufacture high-efficiency quantum-confined LEDs with "nanopockets" invented in collaboration with Kopin Corporation will be discussed(1). (1) J. Narayan et al. Applied Physics Letters 81, 841(2002); Applied Physics Letters 81, 3978(2002): US Patent Pending.
Summary: Novel Nanostructured Materials and Systems
J. Narayan, Distinguished University Professor, Department of Materials Science and Engineering, North Carolina State University, Raleigh, NC 27695-7916.
Abstract
This talk will focus on self-assembly based methods for processing of novel nanostructured materials for structural, optoelectronic and magnetic systems. Modeling of these unique structures has been carried out to evaluate system level performance. A specific example of naotechnology to manufacture high-efficiency
quantum-confined LEDs with "nanopockets" invented in collaboration with Kopin Corporation will be discussed(1).
(1) J. Narayan et al. Applied Physics Letters 81, 841(2002); Applied Physics
Letters 81, 3978(2002): US Patent Pending.
