Researchers at the Pune-based MIT-World Peace University have developed a groundbreaking technology that extracts clean hydrogen from sugarcane juice, offering a sustainable alternative to fossil fuels. With the world facing energy challenges and environmental concerns, the demand for renewable and eco-friendly energy sources is on the rise. The unique method devised by the university involves using an undisclosed microorganism to extract hydrogen from sugarcane juice, along with converting carbon dioxide into acetic acid for enhanced sustainability. The high potential of this technology lies in its ability to produce over 140 litres of hydrogen from just four litres of sugarcane juice, showcasing its efficiency and promising future for hydrogen fuel cell vehicles (FCVs). By utilizing sugarcane juice, seawater, and wastewater in a bioprocess at room temperature, the university's approach not only reduces energy requirements but also minimizes waste discharge, setting it apart from traditional water-splitting methods. Dr. Bharat Kale, an Emeritus Professor at MIT-WPU, emphasized the importance of bringing down hydrogen costs to $1 per kilogram to facilitate India's transition towards clean energy solutions. The university is actively seeking industry partners to upscale the technology and facilitate its real-world applications through collaboration and technology transfer. While the current extraction process takes several days, the university is committed to enhancing efficiency and production scalability in partnership with private entities. Overall, this innovative solution from India demonstrates the country's dedication to sustainable practices and technological advancements in the clean energy sector, offering a glimpse into a greener future powered by hydrogen extracted from sugarcane juice.