Jingjing Qu

Title: Innovations of Jingjing Qu in Scintillation Crystal Technology

Introduction

Jingjing Qu is a prominent inventor based in Chongqing, China. She has made significant contributions to the field of scintillation crystal technology, particularly through her innovative patent. Her work focuses on enhancing the performance of scintillation crystals, which are crucial in various applications, including radiation detection.

Latest Patents

Jingjing Qu holds a patent titled "Method for increasing luminescence uniformity and reducing afterglow of Ce-doped gadolinium-aluminum-gallium garnet structure scintillation crystal, crystal material and detector." This patent presents a method that improves luminescence uniformity and minimizes afterglow in Ce-doped gadolinium-aluminum-gallium garnet structure scintillation crystals. The method involves doping Sc ions into the crystal material, which occupy at least an octahedral site. This approach increases the effective segregation coefficient of active Ce ions and optimizes energy resolution while reducing the density of point defects in the crystal.

Career Highlights

Jingjing Qu is affiliated with the China Electronics Technology Group Corporation No. 26 Research Institute. Her work at this institution has allowed her to focus on advanced research in scintillation materials and their applications. She has successfully developed methods that enhance the performance of scintillation crystals, contributing to advancements in detection technologies.

Collaborations

Jingjing has collaborated with notable colleagues, including Yuchong Ding and Qiang Wang. These collaborations have fostered a productive research environment, leading to innovative solutions in the field of scintillation crystals.

Conclusion

Jingjing Qu's contributions to scintillation crystal technology exemplify her dedication to innovation and research. Her patented methods significantly enhance the performance of scintillation materials, paving the way for advancements in various applications.