Associate Professor, Associate Chair, Department of Electrical & Computer Engineering
The University of New Mexico
Dr. Balakrishnan has disclosed 15 inventions to STC, received five UNM-affiliated issued U. S. patents and has three pending U. S. patent applications for his semiconductor, reconfigurable antenna, and solar cell technologies.
Dr. Balakrishnan’s primary research focus for the past decade has been the growth and characterization of highly mismatched III-Sb compound semiconductors on GaAs and silicon substrates. His specific contribution to this area of research is the novel use of interfacial misfit dislocation arrays in enabling low defect-density, bufferless, monolithic integration of III-Sb on GaAs and silicon substrates for increased functionality of antimonide devices on mature platforms.
The suite of patents on highly mismatched antimonide devices along with CVD diamond based thermal management patents have formed the basis for several world record lasers and photovoltaic devices with applications ranging from gas sensing to infrared counter measures.
Dr. Balakrishnan has also been part of technologies such as the OPRAS antenna technology which merges photonics with reconfigurable antennas to provide an antenna technology that can be reconfigured dynamically at very high speeds. Discrete semiconductor photoconductive elements act as switches between antenna elements, dynamically changing the resonant frequencies of the antenna without using required bias lines to activate the switches. The elimination of bias lines is a very important advantage and feature of this technology since bias lines can interfere with the design and operation of the antenna. The technology is also a complete departure from traditional antenna designs in that it eliminates all metal from the antenna plane.
ISSUED U. S. PATENTS (UNM-AFFILIATED)
7,432,175 Quantum Dots Nucleation Layer of Lattice Mismatched Epitaxy, issued October 7, 2008
7,700,395 Hybrid Integration Based on Wafer Bonding of Devices to AISb Monolithically Grown on Si, issued April 20, 2010
8,410,523 Misfit Dislocation Forming Interfacial Self-Assembly for Growth of Highly-Mismatched III-Sb Alloys, issued April 2, 2013
8,482,465 Optically-Pumped Reconfigurable Antenna Systems (OPRAS), issued July 9, 2013
8,609,461 Semiconductor Epitaxy on Diamond for Heat Spreading Applications, issued December 17, 2013
PENDING U. S. PATENT APPLICATIONS (UNM-AFFILIATED)
Multi-Source Optimal Reconfigurable Energy Harvester
Fiber-Coupled Solar Cell Modules for Concentrated Operation in Consumer Electronics Applications
High Quality AlSb for Radiation Detection