MUMBAI, India, May 1 -- Intellectual Property India has published a patent application (202621027715 A) filed by Rahul S. Nikam; Sachin V. Mukhamale; Pooja S. Rindhe; and Sanjay K. Devade, Malkapur, Maharashtra, on March 9, for 'a system and a method for intelligently controlled synthesis of graphene oxide using real time oxidation feedback and adaptive reagent modulation.'
Inventor(s) include Rahul S. Nikam; Sachin V. Mukhamale; Pooja S. Rindhe; and Sanjay K. Devade.
The application for the patent was published on May 1, under issue no. 18/2026.
According to the abstract released by the Intellectual Property India: "The present disclosure relates to a system and method for the intelligent control of graphene oxide synthesis. The system has an adaptive oxidation reactor, several sensor modules, a reagent micro-dosing control unit, and a processor that can change oxidation parameters in real time using closed-loop feedback. We keep an eye on and process real-time reaction parameters like temperature, pH, oxidation-reduction potential, pressure, and reaction energy all the time to figure out an oxidation progress index. The processor also runs predictive oxidation models to control the amount of reagents used, the length of the reaction, and the temperature, which stops over-oxidation and dangerous exothermic events. The method also includes controlled quenching and stabilization of functional groups to keep graphene oxide's structure intact. Post-synthesis validation and digital traceability make it possible to make things in a way that can be repeated and scaled up. The system and method described change the way graphene oxide is made from an uncontrolled, unpredictable, and dangerous process into one that is controlled, predictable, and safe. This makes oxidation more uniform, lowers the number of defects, increases safety, and makes the process scalable for industrial use in areas like energy storage, sensing, catalysis, and biomedical devices."
Disclaimer: Curated by HT Syndication.
