Company Filing History:
Years Active: 2021
Title: Hao Zhu - Innovator in Topological Insulator Transistors
Introduction
Hao Zhu is a prominent inventor based in Gaithersburg, MD (US). He has made significant contributions to the field of microelectronics through his innovative work on topological insulator transistors. His research focuses on enhancing the performance of transistors, which are fundamental components in electronic circuits.
Latest Patents
Hao Zhu holds a patent for "High performance topological insulator transistors." This invention utilizes topological insulators, such as single-crystal BiSe nanowires, as the conduction channel in high-performance transistors. These transistors demonstrate superior current-voltage characteristics compared to traditional semiconductor nanowire transistors. They exhibit sharp turn-on, nearly zero cutoff current, a very large On/Off current ratio, and well-saturated output current. The unique properties of topological insulators allow for effective separation of metallic electron transport at the surface from the conduction of the bulk material, which can be adjusted by field effect at a small gate voltage. Additionally, these materials exhibit a magneto-electric effect that causes shifts in transistor threshold voltage with external magnetic fields. Such features make them desirable for various microelectronic and nanoelectronic applications.
Career Highlights
Hao Zhu is affiliated with George Mason University, where he continues to advance research in the field of electronics. His work has garnered attention for its potential applications in improving the efficiency and performance of electronic devices.
Collaborations
Hao Zhu collaborates with notable colleagues, including Qiliang Li and Curt A Richter, who contribute to his research endeavors and help drive innovation in the field.
Conclusion
Hao Zhu's contributions to the development of topological insulator transistors highlight his role as a leading inventor in the field of microelectronics. His innovative work promises to impact various applications in electronics, paving the way for future advancements.