Weixing Wang

Title: Weixing Wang: Innovator in Biomass-derived Silica Nanoaggregates

Introduction

Weixing Wang is a notable inventor based in Guangzhou, China. He has made significant contributions to the field of materials science, particularly in the synthesis of silica nanoaggregates from biomass materials. His innovative approach has implications for various applications in technology and industry.

Latest Patents

Weixing Wang holds a patent for "Silica nanoaggregates and organosilicon complexes and methods of forming them from biomass materials." This patent describes a method of controlling the pre-treatment of biomass materials and pyrolysis conditions to synthesize silica samples with varying surface areas and levels of crystallinity. The process allows for the creation of biogenic silica nanoaggregates, measuring 25-30 nm in diameter, from biomass materials. Characterization of these aggregates reveals that they consist of smaller primary silica nanoparticles, approximately 4.2 nm in diameter. Under controlled melting, catalyzed by metal salt cations, these silica nanoaggregates can fuse to form semi-crystalline porous silica frameworks with adjustable pore sizes and structural integrity. Additionally, organosilicon complexes can be synthesized from the bio-derived silica nanoaggregates.

Career Highlights

Weixing Wang is affiliated with Texas State University, where he continues to advance his research in materials science. His work focuses on the innovative use of biomass materials, contributing to sustainable practices in material synthesis.

Collaborations

Weixing Wang collaborates with Luyi Sun, enhancing the research and development of silica nanoaggregates and their applications.

Conclusion

Weixing Wang's contributions to the field of materials science through his innovative patent on silica nanoaggregates highlight the potential of biomass materials in creating advanced materials. His work not only advances scientific knowledge but also promotes sustainable practices in material development.