Yinying Ren

Title: Yinying Ren: Innovator in Asymmetric Electrochemical Systems

Introduction

Yinying Ren is a prominent inventor based in Cambridge, MA (US). He has made significant contributions to the field of electrochemical systems, holding a total of 3 patents. His work focuses on innovative methods for the separation of organic compounds from aqueous solutions.

Latest Patents

One of Yinying Ren's latest patents is titled "Asymmetric Electrochemical Systems and Methods." This invention describes an asymmetric system that includes a first conductive polymer modified with a redox active moiety and a second conductive polymer modified with a surfactant. The system is designed for the effective separation of organic compounds from aqueous solutions. It features complementary hydrophobicity tunability in response to electrochemical modulations. In its neutral state, both materials exhibit hydrophobic properties, allowing them to attract organic compounds. By applying a mild potential, the system facilitates the desorption of organic compounds and the regeneration of the materials. This innovative system can be utilized in a cyclic manner, enabling repeated electrical discharge or shorting of the two electrodes to capture organics from a feed solution, followed by the application of a potential to release the adsorbed organics.

Career Highlights

Yinying Ren is affiliated with the Massachusetts Institute of Technology, where he continues to advance his research in electrochemical systems. His work has garnered attention for its potential applications in various industries, particularly in environmental and chemical engineering.

Collaborations

Yinying has collaborated with notable colleagues, including Trevor Alan Hatton and Xianwen Mao. Their combined expertise contributes to the innovative research being conducted at their institution.

Conclusion

Yinying Ren's contributions to the field of asymmetric electrochemical systems highlight his role as a leading inventor. His innovative approaches to separating organic compounds demonstrate the potential for significant advancements in technology and environmental applications.