MIT World Peace University (MIT-WPU) in India has unveiled two groundbreaking advancements in sustainable energy research. The first project focuses on developing a novel process to produce green hydrogen directly from sugarcane juice using microorganisms. This method not only offers a sustainable alternative for hydrogen production but also converts carbon dioxide into acetic acid, aligning with India's Green Hydrogen Mission and potentially revolutionizing the sugar industry. The second significant development by MIT-WPU involves an innovative batch reactor system for biodiesel production that utilizes agrowaste-based heterogeneous catalysts. This system has been patented and aims to provide an environmentally friendly solution by efficiently converting agricultural residues into affordable catalysts, thereby reducing waste generation. Both projects have already seen progress in terms of patent submissions and funding proposals. The university is actively seeking industry partners to scale up these technologies and facilitate their commercialization within a short timeframe. The research team at MIT-WPU is also working on hydrogen storage using metal-organic frameworks (MOFs) and aims to enhance the efficiency of hydrogen storage and CO2 capture. Dr. Bharat Kale, one of the key researchers leading these projects, highlighted the cost-effectiveness and sustainability of the bioprocess for hydrogen production, emphasizing the importance of industry collaborations for further development. The biodiesel production system, spearheaded by Dr. Kale and his colleagues, offers a promising alternative to fossil fuels and is set to be commercialized soon, supporting India's renewable energy goals. Overall, MIT-WPU's sustainable energy breakthroughs signal a positive step towards a cleaner, greener future. The university's commitment to innovation and environmental sustainability, coupled with its focus on industry partnerships, positions these advancements as crucial players in India's green energy transition.