Company Filing History:
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2 out of 7 Years Active: 2022
Title: Innovations of Xingjun Zhao: A Look at His Patents and Contributions
Introduction
Xingjun Zhao, an inventor based in Shaoxing, China, has made significant contributions to the field of chemical synthesis. With two patents to his name, Zhao's work focuses on the preparation of 2-methylallyl chloride, showcasing his expertise in innovative synthesis methods and reactors.
Latest Patents
Zhao's latest patents include a "Synthesis method for highly selective 2-methylallyl chloride and synthesis reactor thereof." This invention outlines a process that utilizes isobutylene and chlorine gas as raw materials in a microchannel reactor. The innovative aspect lies in the gas-phase chlorination reaction, which occurs with precise control over temperature, minimizing side reactions and preventing coking phenomena.
Another noteworthy patent is the "Method for preparing 2-methylallyl chloride from 1,2-dichloroisobutane." This method employs a sodium hydroxide aqueous solution in reactive rectification within a combined rectifying tower. Notably, this systematic approach ensures a complete conversion of the starting material, 1,2-dichloroisobutane, yielding high selectivity for 2-methylallyl chloride.
Career Highlights
Zhao has had a fruitful career working at notable institutions, including Zhejiang University and Zhejiang Huangma Technology Co., Ltd. His experience at these organizations has certainly influenced his innovative approach to chemical synthesis.
Collaborations
Throughout his career, Xingjun Zhao has collaborated with distinguished colleagues such as Hong Yin and Zhirong Chen. These collaborations have enhanced his research endeavors and helped advance the field of chemical engineering.
Conclusion
Xingjun Zhao's contributions to innovative synthesis methods have positioned him as a noteworthy inventor in the field. His patents reflect a commitment to advancing chemical processes, ultimately aiding industrial applications. As he continues his work, his inventions may pave the way for future innovations in chemical synthesis and beyond.