Company Filing History:
Years Active: 2021
Title: Changlin Zhao: Innovator in Superhydrophobic Technologies
Introduction
Changlin Zhao is a prominent inventor based in Dalian, China. He is known for his innovative work in the field of superhydrophobic materials. His research focuses on developing methods that enhance the functionality and efficiency of various polymer materials.
Latest Patents
Changlin Zhao holds a patent for a thermal extrusion method to fabricate large-dimension superhydrophobic cylinder pillar arrays with a droplet pancake bouncing phenomenon. This patent outlines a process that begins with preparing a thermal extrusion mold, where through-hole arrays with specific dimensions are created on metals. The process involves polishing, rinsing, and drying the molds before thermally extruding polymer materials onto them. After cooling, excess materials are removed, and the polymer cylinder pillar arrays are lifted off. The final step includes treating the polymer sample with a mixed liquid spray containing titanium oxide nanoparticles, resulting in superhydrophobic cylinder pillar arrays. This method is noted for being easy to operate, low-cost, recyclable, and effective for different polymer materials, enabling efficient large-area industrial fabrication of droplet pancake bouncing surfaces.
Career Highlights
Changlin Zhao is affiliated with Dalian University of Technology, where he contributes to advancing research in material science. His work has garnered attention for its practical applications and innovative approach to superhydrophobic technologies.
Collaborations
Changlin Zhao has collaborated with notable colleagues, including Jinlong Song and Liu Huang. Their combined expertise enhances the research and development of superhydrophobic materials.
Conclusion
Changlin Zhao's contributions to the field of superhydrophobic technologies demonstrate his commitment to innovation and practical applications in material science. His patented methods pave the way for advancements in industrial fabrication techniques.