Company Filing History:
Years Active: 2023
Title: Innovations by Inventor Hui Li
Introduction
Hui Li is an accomplished inventor based in Baltimore, MD (US), known for his contributions to sensor technology. With a total of 2 patents, he has made significant strides in developing innovative solutions for detecting various analytes.
Latest Patents
Hui Li's latest patents include a sensor that detects an analyte in the presence of an interfering stimulus. This sensor comprises a first sensing element that is electronically sensitive to both the analyte and the interfering stimulus, providing a first electrical signal in response to their presence. Additionally, it features a second sensing element that also responds to the analyte and the interfering stimulus, generating a second electrical signal. The two sensing mechanisms are electrically connected, allowing for the measurement of an electrical property indicative of the analyte's concentration based on the signals received.
Another notable patent is the ratiometric vapor sensor, which includes a first sensor made of a vapor-sensitive semiconducting organic compound and a second sensor with a modified vapor-sensitive semiconducting organic compound. This innovative sensor can detect vapors such as nitrogen dioxide and determine their concentration by comparing the outputs from the electrodes connected to both sensors.
Career Highlights
Hui Li is affiliated with The Johns Hopkins University, where he continues to advance research in sensor technology. His work has garnered attention for its practical applications in various fields, including environmental monitoring and safety.
Collaborations
Hui Li collaborates with esteemed colleagues, including Howard Edan Katz and Yingli Chu, who contribute to his research endeavors and enhance the innovative output of their projects.
Conclusion
Hui Li's contributions to sensor technology exemplify the impact of innovative thinking in addressing real-world challenges. His patents reflect a commitment to advancing the field and improving detection methods for various analytes.