Dean Y Lin

Title: Dean Y Lin - Innovator in Polarographic Sensor Technology

Introduction

Dean Y Lin is an accomplished inventor based in Chino Hills, CA (US). He is known for his significant contributions to the field of sensor technology, particularly through his innovative patent related to polarographic sensors. With a focus on enhancing the accuracy of gas measurement, Lin's work has implications in various scientific and industrial applications.

Latest Patents

One of Dean Y Lin's notable patents is for a polarographic sensor and method of using the same. This invention involves a polarographic sensor device designed to determine the partial pressure of a gas in a sample medium. The device features a hydroscopic electrolyte composition that connects a pair of spaced electrodes, with one serving as a sensing electrode. Additionally, it includes a gas-permeable membrane that separates the electrodes and electrolyte from the sample medium, along with a specialized fastener to maintain the membrane's position relative to the sensing electrode. This innovative design enhances the functionality and reliability of gas measurement.

Career Highlights

Throughout his career, Dean Y Lin has worked with prominent companies such as Beckman Instruments, Inc. and Novartis AG. His experience in these organizations has allowed him to develop and refine his expertise in sensor technology and related fields. Lin's work has contributed to advancements in the measurement and analysis of gases, showcasing his commitment to innovation.

Collaborations

Dean Y Lin has collaborated with notable colleagues, including Yougin E Xie and Khan V Nguyen. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and expertise, further enhancing the impact of their collective work in sensor technology.

Conclusion

Dean Y Lin's contributions to polarographic sensor technology exemplify his dedication to innovation and advancement in the field. His patent and career achievements reflect a commitment to improving gas measurement techniques, making a significant impact on both scientific research and industrial applications.