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Years Active: 2021-2023
Title: Innovations of Peng Xu in Membrane Technology
Introduction
Peng Xu is a notable inventor based in Nanjing, China. He has made significant contributions to the field of membrane technology, particularly in the development of methods for gas separation. With a total of 2 patents, his work showcases innovative approaches to improving membrane efficiency.
Latest Patents
Peng Xu's latest patents include a "Modified porous membrane material and preparation method thereof" and a "Liquid membrane separation method of carbon dioxide." The first patent focuses on a membrane modification method that enhances the liquid membrane separation of carbon dioxide (CO). This method involves grafting an organic substance containing an amine group onto a porous membrane material. By loading water into the pore channels of the membrane, a supported liquid membrane is prepared for gas mixture separation experiments. The introduction of the amine group through chemical grafting allows the water to become alkaline, which improves the permeation flux of CO while avoiding the loss of active alkaline substances.
The second patent, "Vent filter and radio remote unit," describes a vent filter that includes a first member with a ventilation path and an outer wall that creates a gap. This design enhances the functionality of the vent filter, making it more effective in various applications.
Career Highlights
Peng Xu has worked at prestigious institutions, including Nanjing Tech University and Ericsson. His experience in these organizations has allowed him to collaborate on various innovative projects and contribute to advancements in technology.
Collaborations
Throughout his career, Peng Xu has collaborated with notable colleagues, including Yiqun Fan and Minghui Qiu. These partnerships have fostered a creative environment that has led to significant technological advancements.
Conclusion
Peng Xu's contributions to membrane technology through his innovative patents demonstrate his expertise and commitment to advancing the field. His work not only enhances the efficiency of gas separation processes but also showcases the potential for further developments in membrane applications.