Nanoelectronics, Nanomagnetics and Microelectronics Expert Consultant Resume
This expert specializes in solid state electronics with emphasis in electron beam lithographic processing of nanometer structures, molecular electronics, microelectromechanical systems for integrated circuit packaging, and nanomagnetics.
This expert has extensive consulting experience in areas including medical patch technology, integrated circuit processing, electronic instruments for health care and microfluidics, integrated optics research, interface to IC manufacturers and battery selection for handheld electronic medical diagnostics, and four point probe measurements.
This consultant served as founding director of a Nanofabrication Facility. Now under the direction of a faculty oversight committee, the laboratory allows fabrication of complete nano and CMOS circuits.
This expert has developed courses in areas including Introduction to Nanofabrication, Introduction to Engineering- information technology and nanotechnology, Vacuum Technology for Microelectronics, Scanning Electron Microscopy and Electron Beam Lithography, Nanolithography Technologies, Advanced IC Fabrication Techniques, Microelectronics Systems, Submicron Fabrication Techniques, VLSI Fabrication Techniques, and Integrated Circuits Processing Laboratory.
With an extensive research background, this consultant has conducted numerous studies in areas including quilt packaging development, quilt packaging for digital architectures, ultra-wide-bandwidth, and contiguous superconnects for advanced computing systems. Further studies include quilt packaging for high-speed chip-to-chip interconnects, novel superconnects for ultrahigh-performance hybrid communications systems, applications, architectures, and circuit design for nano-scale magnetic logic devices. Other related studies are nanomagnet QCA, multispectral infrared sensors, focal plane array processors with adaptive visual range and nanoantenna sensor, electron beam lithography systems, and multispectral infrared sensors. Further studies are focal plane array processors with adaptive visual range and nanoantenna sensor, biologically-inspired CNN image processors with dynamically-integrated hyperspectral nanoscale sensors, mixed signal nanoelectronics, and computing architectures for coupled nanomagnets. Other specialties include microfluidics for medical diagnostics, microelectromechanical systems, background-charge insensitive single-electron memories, and development of a microfluidics-based blood monitoring system. Further experience includes microfluidics for medical diagnostics, nanoelectronics research, augmentation to molecular electronics research, fabrication and measurement of high-speed, high temperature quantum-dot cellular automata, and molecular electronics based on quantum-dot cellular automata.
