Company Filing History:
Years Active: 2021
Title: Curt A. Richter: Innovator in Topological Insulator Transistors
Introduction
Curt A. Richter 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
Curt A. Richter 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 feature sharp turn-on capabilities, nearly zero cutoff current, a very large On/Off current ratio, and well-saturated output current. The metallic electron transport at the surface is effectively separated from the conduction of the bulk topological insulator, allowing for adjustments via field effect at small gate voltages. Additionally, topological insulators like BiSe exhibit a magneto-electric effect, which causes shifts in transistor threshold voltage with external magnetic fields. These properties make them desirable for various microelectronic and nanoelectronic applications.
Career Highlights
Curt A. Richter 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
Curt has collaborated with notable colleagues, including Qiliang Li and Hao Zhu, contributing to the advancement of research in topological insulator technology.
Conclusion
Curt A. Richter's innovative work in topological insulator transistors represents a significant advancement in microelectronics. His contributions are paving the way for future developments in electronic circuitry applications.