Sze Kee Tam

Title: Innovations by Sze Kee Tam: A Journey in Conductive Pastes

Introduction: Sze Kee Tam, an inventive spirit based in Hong Kong, has made significant contributions to the field of materials science through his innovative patent. With a focus on enhancing conductive materials, Tam's work exemplifies the intersection of creativity and technology, leading to advancements in the development of conductive pastes.

Latest Patents: Sze Kee Tam holds a patent for "Conductive pastes using bimodal particle size distribution." This patent describes a novel technique where monodispersed metal nanoparticles are produced by first creating a homogeneous metal complex solution. By mixing metal salt with a complexing agent in a solvent, followed by the addition of a precipitating agent to form a slurry, the process ensures precision in nanoparticle formation. The subsequent addition of a reducing agent and solvent facilitates the reduction of the slurry, allowing for metal nanoparticles to be formed in a controlled gas-purged environment. To enhance the surface properties of these nanoparticles, a capping agent is introduced. The final steps involve washing and recovering the nanoparticles via phase extraction or centrifugation. This innovative technique results in conductive pastes characterized by a bimodal particle size distribution.

Career Highlights: Sze Kee Tam is associated with Cn Innovations Limited, where he applies his expertise and creativity in developing advanced materials. His commitment to innovation is reflected not only in his patent but also in his continuous pursuit of betterment in conductive materials.

Collaborations: Throughout his career, Sze Kee Tam has collaborated with talented individuals such as Ka Ming Ng and Ka Yip Fung. These partnerships foster an environment of creativity and exchange of ideas, allowing for enhanced innovations in their respective fields.

Conclusion: Sze Kee Tam's contributions to technology through his patent on conductive pastes with bimodal particle size distribution showcase his innovative mindset and dedication to material sciences. As he continues to collaborate with fellow researchers and inventors, Tam's work is set to advance further, benefiting both academia and industry in the realm of conductive materials.