Mai Sanjo

Title: The Innovative Mind of Mai Sanjo: A Pioneer in Polymer Composites

Introduction

Mai Sanjo, an accomplished inventor based in Tokyo, Japan, is making noteworthy strides in the field of polymer technology. With a keen interest in the intersection of cationic and anionic compounds, she has developed a significant innovation that could potentially revolutionize various applications in medicine and biotechnology. Her dedication and ingenuity continue to contribute to advancements in her field.

Latest Patents

Mai Sanjo holds one patent titled "Charge conversional ternary polyplex." This groundbreaking invention discloses a polymer composite (polyplex) that contains nucleic acid along with both cationic and anionic polymers. The unique aspect of this polyplex is that the anionic polymer covers the surface, maintaining a negative charge at neutral pH, while having the ability to transform into a positively charged state at mildly acidic pH levels. This innovation opens new avenues for targeted drug delivery systems and gene therapy approaches.

Career Highlights

Currently, Mai Sanjo is affiliated with The University of Tokyo, where she engages in cutting-edge research that bridges chemistry and biological applications. Her expertise in polymer composites has established her as a vital contributor to ongoing research initiatives at the university. Mai’s ability to combine complex concepts into practical solutions illustrates her talent and commitment to innovation.

Collaborations

Mai has collaborated with notable colleagues in her research endeavors, including Kazunori Kataoka and Yan Lee. These collaborations not only amplify the scope of their research but also foster an environment of creativity and shared knowledge, enabling breakthroughs that are impactful in their respective fields.

Conclusion

In conclusion, Mai Sanjo represents the essence of innovation in the realm of polymer technology. Her singular patent on charge conversional ternary polyplex highlights her role as an inventor and her potential to influence future research. As she continues her work at The University of Tokyo, the scientific community eagerly anticipates the contributions she will make in the world of advanced materials and biotechnology.