Prof. Shilie Pan | Nonlinear Optical Crystal Materials | Best Researcher Award 

Xinjiang Technical Institute of Physics and Chemistry | China

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Prof. Shilie Pan was born on October 10, 1973, in China. He completed his Bachelor’s and Master’s degrees at Zhengzhou University between 1992 and 1999. He then pursued a Doctor of Philosophy degree at the University of Science and Technology of China, graduating in 2002. His early academic pursuits laid a strong foundation in crystal materials and Nonlinear optical crystal materials areas in which he would later achieve significant recognition and contribute extensively to the field.

PROFESSIONAL ENDEAVORS

Prof. Pan began his professional career as a post-doctoral fellow at the Technical Institute of Physics & Chemistry, Chinese Academy of Sciences, working in the laboratory of Prof. Chuangtian Chen from 2002 to 2004. He then moved to the USA to work as a post-doctoral fellow at Northwestern University under Prof. Kenneth R. Poeppelmeier from 2004 to 2007. Since 2007, he has served as a Professor at the Xinjiang Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, and in 2021, he became the Director of the institute. His professional endeavors have focused on the synthesis, growth, and application of Nonlinear optical crystal materials.

CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Pan’s research focuses on Nonlinear optical crystal materials, emphasizing their design, structural prediction, synthesis, and growth. His work integrates artificial intelligence with experimental synthesis and the study of physical properties to develop advanced optical devices. Prof. Pan has published over 500 peer-reviewed papers, cited more than 14,000 times, and holds 9 authorized US patents and 75 Chinese patents. His notable patents include innovations in ammonium fluoroborate and cesium fluoroborate nonlinear optical crystals, demonstrating his significant contributions to the field of Nonlinear optical crystal materials.

IMPACT AND INFLUENCE

Prof. Pan is recognized as one of the world’s top 10,000 scientists according to the Global Scholar database and has been a Chinese highly cited scholar by Elsevier from 2020 to 2022. His work has garnered numerous awards, including the Science and Technology Award of Xinjiang Province (First Class) in multiple years, the Chinese Overseas Chinese Contribution Award, and the National Science Fund for Distinguished Young Scholars. His influence extends through his role as an excellent tutor and mentor, earning awards for his exceptional guidance from the Chinese Academy of Sciences. His research on Nonlinear optical crystal materials has significantly advanced technological applications in lasers, optical communication, and medical treatment.

ACADEMIC CITES

Prof. Pan’s extensive publication record and patents have made a substantial impact on the scientific community. His research is widely cited, reflecting the importance and relevance of his work in Nonlinear optical crystal materials. The development of new electro-optical crystals and their applications in various technological fields highlight his role as a leading researcher and innovator.

LEGACY AND FUTURE CONTRIBUTIONS

Prof. Pan's legacy in the field of Nonlinear optical crystal materials is marked by his pioneering research, significant technological advancements, and exceptional mentorship. His future contributions are anticipated to further enhance the understanding and application of crystal materials in innovative optical devices. As he continues to lead research at the Xinjiang Technical Institute of Physics and Chemistry, his work will undoubtedly influence the next generation of scientists and the evolution of advanced optical technologies.

NONLINEAR OPTICAL CRYSTAL MATERIALS

Prof. Pan’s expertise in Nonlinear optical crystal materials encompasses the design and synthesis of new crystal structures, growth of electro-optical crystals, and development of optical devices. His patents on ammonium and cesium fluoroborate nonlinear optical crystals are testament to his innovative approach and profound impact in this specialized field. His research bridges theoretical predictions with practical applications, driving advancements in laser technology and optical communications. Prof. Pan’s work continues to shape the future of Nonlinear optical crystal materials and their applications in various high-tech industries.

NOTABLE PUBLICATION

• Toward the ultraviolet (UV) or deep-UV nonlinear optical crystals: The combination of π-conjugated planar [XY₃] and tetrahedral [XY₄]

  Citation: 02          Year: 2024

• Where do the Fluorine Atoms Go in Inorganic-Oxide Fluorinations? A Fluorooxoborate Illustration under Terahertz Light

  Citation: 02          Year: 2024

• “Three-in-One”: A New Hg-Based Selenide Hg₇P₂Se₁₂ Exhibiting Wide Infrared Transparency Range and Strong Nonlinear Optical Effect

  Citation: 02          Year: 2023

• A^IB₃^IIC₂^IIIQ₆^VIX^VII: A Thioborate Halide Family for Developing Wide Bandgap Infrared Nonlinear Materials by Coupling Planar [BS₃] and Polycations

  Citation: 02          Year: 2023