Company Filing History:
Years Active: 2020-2024
Title: Inventor Jiahao Huang: A Pioneer in Nucleic Acid Synthesis
Introduction
Jiahao Huang, an innovative inventor based in Cambridge, GB, has made significant contributions to the fields of polymer synthesis and nucleic acid synthesis. With a portfolio of seven patents, Huang's work has advanced various methodologies essential for scientific research and application.
Latest Patents
Huang's latest patents showcase his expertise and creativity in addressing complex scientific challenges. One of his notable inventions is focused on "Polymer synthesis using electrowetting devices," which pertains to methods of synthesizing polymers, biopolymers, and nucleic acids, utilizing immobilized dNTP/NTPs. This invention also includes kits designed for nucleic acid synthesis using these immobilized components. Another significant patent involves the "Use of terminal transferase enzyme in nucleic acid synthesis," which details the application of a modified terminal transferase enzyme in adding nucleotides to the 3' end of nucleic acids. This work not only furthers nucleic acid synthesis and sequencing methods but also includes kits that feature this modified enzyme for practical use in research.
Career Highlights
Jiahao Huang's professional journey includes key roles in innovative companies such as Nuclera Nucleics Ltd. and Nuclera Ltd. His involvement at these organizations underscores his dedication to advancing biotechnology and molecular biology techniques, marking him as a valuable asset in his field.
Collaborations
Throughout his career, Huang has collaborated with other notable figures in research, including coworkers Michael C. Chen and Gordon R. McInroy. These collaborations have fostered an environment of shared knowledge and innovation, contributing to the success of their laboratory endeavors.
Conclusion
Jiahao Huang's contributions to the scientific community are significant, with a comprehensive portfolio of patents that enhance methodologies in polymer and nucleic acid synthesis. His innovative approaches and collaborative spirit continue to influence current research and paves the way for future breakthroughs in the field.