Wing Yui Lam

Title: Innovations by Wing Yui Lam in Protective Coatings

Introduction

Wing Yui Lam is a prominent inventor based in Hong Kong, China, known for his innovative contributions to protective coatings. With a total of 8 patents to his name, he has significantly impacted the field with his groundbreaking inventions.

Latest Patents

Among his latest patents is the "Sapphire Coated Substrate with a Flexible, Anti-Scratch and Multi-Layer Coating." This invention involves a method for forming a substrate with a multi-layered, flexible, and anti-scratch protective coating. The topmost layer of this coating consists of aluminum oxide or a mixture thereof, providing an effective anti-scratching mechanism while maintaining the flexibility of the underlying substrate.

Another notable patent is the "Sapphire Thin Film Coated Substrate," which details a method to transfer a layer of a harder thin film onto a softer, flexible substrate. This process specifically involves depositing a sapphire thin film onto various softer substrates, such as quartz, fused silica, silicon, glass, toughened glass, PET, polymers, plastics, paper, and fabrics. This innovation effectively combines the hardness of sapphire with the flexibility of different materials.

Career Highlights

Wing Yui Lam has worked with respected institutions, including Hong Kong Baptist University and HKBU R&D Licensing Limited. His work at these organizations has allowed him to explore and develop his innovative ideas further, enhancing the field of protective coatings.

Collaborations

Throughout his career, Lam has collaborated with several professionals, including Kok Wai Cheah and Hoi Lam Tam, who is notable for being an accomplished female coworker. These collaborations have contributed to the robust development of his patent applications.

Conclusion

Wing Yui Lam's innovations in the field of protective coatings showcase his talent and commitment to advancing technology. With his impressive patents and fruitful collaborations, he continues to make significant contributions that enhance the durability and functionality of various substrates in numerous applications. His work exemplifies the spirit of innovation needed to address modern challenges in material science.