The article highlights the groundbreaking work of researchers from MIT-WPU in developing a sustainable hydrogen production process using sugarcane juice and microorganisms. This innovative method not only generates hydrogen but also converts carbon dioxide into acetic acid, demonstrating a commitment to environmental sustainability. The project aligns with India's Green Hydrogen Mission, showing promise for the country's energy transition. A patent has been filed for this technology, indicating its potential for widespread adoption. The research team's bioprocess operates at ambient temperature, utilizing sugarcane juice, seawater, and wastewater, with a goal to decrease hydrogen costs to $1/kg. Seeking industry partnerships for further development and technology transfer, the project has been submitted to the Ministry of Non-Conventional Energy for funding support. Furthermore, the team is working on hydrogen storage using Metal-Organic Framework, focusing on enhancing hydrogen storage capacity and CO2 capture. The university aims to collaborate with industries to scale up the technology and make it economically feasible within a short timeframe. This initiative showcases the potential for innovative solutions to address energy challenges while contributing to a greener future.