Anbharasi Vanangamudi

Title: Anbharasi Vanangamudi: Innovator in Graphene Membranes

Introduction: Anbharasi Vanangamudi is a pioneering inventor based in Singapore, known for her contributions to the field of material engineering. With a total of three patents to her name, she has made significant strides in developing advanced materials that leverage the properties of graphene.

Latest Patents: Her most recent patent focuses on a graphene-based membrane and the method of producing it. This innovative membrane comprises a graphene-polymer composite, specifically designed with an amine functionalized graphene linked to a polymer containing an anhydride group. This unique construction allows for the fabrication of a single-layer graphene-based membrane. The patented method involves reacting a polymer with an anhydride and amine functionalized graphene in the presence of a solvent, resulting in an intermediate product. This product is then thermally imidized to create a graphene grafted polymer composite, enhancing the membrane's utility in various applications.

Career Highlights: Anbharasi works at Ngee Ann Polytechnic, where she combines her research with teaching, guiding the next generation of innovators in material science. Throughout her career, she has developed a robust portfolio of patents that reflect her expertise and innovative thinking.

Collaborations: In her pursuit of innovations, Anbharasi has collaborated with talented colleagues such as James Antony Prince and Gurdev Singh. These partnerships foster an environment of creativity and shared knowledge, crucial for developing groundbreaking technologies in their research endeavors.

Conclusion: Anbharasi Vanangamudi exemplifies the impact of innovative thinking in the field of material science. Her contributions through her patents not only advance technological capabilities but also inspire future endeavors in the research community. Through her work at Ngee Ann Polytechnic and collaboration with esteemed colleagues, she continues to push the boundaries of what is possible with graphene-based materials.