Company Filing History:
Years Active: 2025
Title: Innovations of Bingchun Jia in Atomic-Scale Machining
Introduction
Bingchun Jia is a prominent inventor based in Hangzhou, China. He has made significant contributions to the field of atomic-scale machining, holding 2 patents that showcase his innovative approaches. His work focuses on developing advanced devices and methods that enhance precision and efficiency in machining processes.
Latest Patents
One of his latest patents is titled "Device and method for multi-energy field induced atomic-scale computer numerical control (CNC) machining in environmental atmosphere." This invention features a device that includes an electromagnetic shielding chamber and a control mechanism. The device is designed to achieve atomic precision in CNC machining by utilizing various energy fields, such as force, temperature, electric, optical, and magnetic fields. The advantages of this device include high efficiency, low cost, and good universality.
Another notable patent is the "Photoelectric fluid field cluster catalytic method for atomic-scale deterministic processing." This method involves selecting nanoparticles with photocatalytic activity and using a photoreduction method to create photoelectrocatalytic clusters. By applying a bias voltage and generating hydrodynamic pressure, this method enables controllable removal with atomic-level precision, significantly enhancing the machining process.
Career Highlights
Bingchun Jia is affiliated with Zhejiang University, where he continues to push the boundaries of innovation in his field. His research and inventions have garnered attention for their potential applications in various industries, particularly in precision engineering and materials science.
Collaborations
Bingchun Jia has collaborated with notable colleagues, including Wule Zhu and Sidong Wu. Their combined expertise contributes to the advancement of research and development in atomic-scale machining technologies.
Conclusion
Bingchun Jia's innovative work in atomic-scale machining exemplifies the potential of modern engineering to achieve unprecedented levels of precision and efficiency. His patents reflect a commitment to advancing technology and improving manufacturing processes.