Wayne State University
 
Research Home Office of the Vice President for Research Sponsored Research Technology Transfer Compliance Research Support Centers and Instututes
 
     
 

Nano Home Faculty Researchers Seminars and Events Facilities and Instrumentation External Funding Opportunities Contact Us


« Faculty Index

Jaewu Choi

577-3990
jchoi@ece.eng.wayne.edu

Area of Interest
Prof. Jaewu Choi is leading the nano Devices & Systems Laboratory (nDSL) at Wayne State University. This group aims at understanding the fundamental science of one-dimensional systems and nano-structures and developing electronic device technologies at single molecular or nanometer scale. One dimensional molecular and nano-structural building blocks, such as ferroelectric polymers, conducting polymers, biomolecules and carbon nanotubes, have unique and attractive physical properties such as diverse functionalities, scalability, chemical inertness, self-organization and built-in interconnection and are intrinsically small enough to make high density and high speed devices but large enough for easy manipulation and integration. The nano Devices & Systems Laboratory (nDSL) challenges to identify the electronic, structural, and physical properties of a single molecular system, to identify electrical transport properties of a single molecular system, to understand and manipulate the physics at the interface between a single molecular system and electrode, to develop desired functional devices from a single molecular system and/or heterostructures of single molecular systems, and to integrate single molecular devices into large scale to bridge nanoscale world to macroscale world. To successfully implement the challengeable tasks, diverse fabrication and characterization methods are employed and developed such as point probe methods (variable temperature ultra-high vacuum scanning probe microscopes (VT-UHV-SPM) and a home-built nanomanipulator with four nanoprobes), chemical and physical processing and thin film facilities, MEMS facilities, and self-assembly methods. Technological goal is developing high density, high speed, light, flexible electronics, flexible displays, and flexible and efficient power source. Currently, research on single molecular electronics, carbon nanotube gas sensor, photonic devices, and microscale polymeric fuel cell systems has been actively progressed.

Resources
a) Variable temperature ultra-high vacuum scanning probe microscopes (VT-UHV-SPM )b) Nanomanipulator with Nanoprobesc) Carbon Nanotube Synthesis System

Collaboration Interests:
a) Synthesis of Functional Moleculesb) Nano-fabricationc) Nano-Characterization

 
  Copyright © 2005 Wayne State University