Company Filing History:
Years Active: 2022
Title: Vinoba Mari: Innovator in Graphene Derivatives Synthesis
Introduction
Vinoba Mari is a prominent inventor based in Safat, Kuwait. He has made significant contributions to the field of materials science, particularly in the synthesis of graphene derivatives from asphaltene. His innovative methods have the potential to advance various applications in nanotechnology and materials engineering.
Latest Patents
Vinoba Mari holds a patent for a method of synthesizing graphene derivatives from asphaltene. This method involves both thermal and chemical treatments. During the thermal treatment, asphaltene is carbonized in a rotating quartz-tube furnace under an inert atmosphere, with temperatures ranging from 400-950°C. This process effectively converts asphaltene molecules into graphene derivatives by eliminating alkyl side chains, exfoliating aromatic layers, and expanding the aromatic sheet diameter. The chemical treatment involves dispersing asphaltene molecules in a liquid intercalating agent to functionalize the asphaltene and increase the inter-layer distance between aromatic sheets. This process oxidizes the graphitic surface of asphaltene to form asphaltene oxide, which is then converted into graphene oxide, a nonconductive hydrophilic carbon material.
Career Highlights
Vinoba Mari is affiliated with the Kuwait Institute for Scientific Research, where he continues to explore innovative methods in material synthesis. His work has garnered attention for its potential applications in various industries, including electronics and energy storage.
Collaborations
Vinoba collaborates with esteemed colleagues such as Faisal S Alhumaidan and Mohan Singh Rana, contributing to a dynamic research environment focused on advancing scientific knowledge and practical applications.
Conclusion
Vinoba Mari's contributions to the synthesis of graphene derivatives from asphaltene highlight his innovative spirit and dedication to advancing materials science. His work not only enhances our understanding of graphene but also opens new avenues for technological advancements.