Guirong Tian

Title: Guirong Tian: Innovator in Copper Azide Technology

Introduction

Guirong Tian is a notable inventor based in Nanjing, China. He has made significant contributions to the field of materials science, particularly in the preparation of copper azide and cuprous azide encapsulated by conductive metal-organic frameworks. His innovative methods have implications for enhancing electrostatic safety in micro devices.

Latest Patents

Guirong Tian holds a patent for a method titled "Method for preparing copper azide and cuprous azide encapsulated by conductive metal-organic framework." This method utilizes a conductive copper-containing metal-organic framework material as a precursor. The azidation of the precursor is completed through a liquid-solid electrochemical azidation reaction. The resulting copper azide and cuprous azide nanocrystals are uniformly embedded within a conductive framework, effectively preventing agglomeration and reducing static charge generated by friction and displacement. The conductive framework also promotes effective charge transfer, enhancing electrostatic safety. The advantages of this method include safety, efficiency, a short reaction time, and strong operability, making it compatible with MEMS processes.

Career Highlights

Guirong Tian is affiliated with Nanjing University of Science and Technology, where he continues to advance research in innovative materials. His work has garnered attention for its practical applications in micro devices, showcasing his commitment to enhancing safety and efficiency in technology.

Collaborations

Guirong Tian collaborates with esteemed colleagues, including Wenchao Zhang and Chunpei Yu, who contribute to his research endeavors. Their combined expertise fosters a dynamic research environment that drives innovation.

Conclusion

Guirong Tian's contributions to the field of materials science, particularly through his patented methods for preparing copper azide and cuprous azide, highlight his role as a leading inventor. His work not only advances scientific knowledge but also enhances the safety and efficiency of micro devices.