Company Filing History:
3 out of 674 
3 out of 104 Years Active: 2024-2025
Title: Weichuan Tao: Innovator in Molecular Sieves
Introduction
Weichuan Tao is a prominent inventor based in Shanghai, China. He has made significant contributions to the field of molecular sieves, holding three patents that showcase his innovative approach to materials science. His work has implications for various applications, including catalysis and adsorption.
Latest Patents
One of his latest patents is the SCM-33 molecular sieve, which features a schematic chemical composition represented by the formula 'SiO·1/x XO·m MO'. In this formula, X denotes a framework trivalent element, with a Si/X molar ratio x of ≥5. The molecular sieve is characterized by a framework equilibrium cation M, where the M/Si molar ratio is 0 Another significant patent is the SCM-34 molecular sieve, which includes aluminum, phosphorus, oxygen, and optionally silicon. The XRD diffraction data of this molecular sieve reveals that the strongest peak within the range of 5-50° occurs at a 2θ degree of 7.59±0.2. The SCM-34 molecular sieve features a new skeleton structure and can be utilized to prepare a metal-containing AFI type molecular sieve or an SAPO-17 molecular sieve. Career Highlights Weichuan Tao has had a distinguished career, working with notable organizations such as China Petroleum & Chemical Corporation and the Shanghai Research Institute of Petrochemical Technology, Sinopec. His experience in these institutions has allowed him to develop and refine his expertise in molecular sieve technology. Collaborations Throughout his career, Weichuan Tao has collaborated with esteemed colleagues, including Weimin Yang and Zhiqing Yuan. These partnerships have contributed to the advancement of his research and the successful development of his patented technologies. Conclusion Weichuan Tao's innovative work in the field of molecular sieves has led to the development of groundbreaking technologies that hold promise for various industrial applications. His contributions continue to influence the field and inspire future research in materials science.