Researchers at MIT World Peace University (MITWPU) in India have unveiled a groundbreaking hydrogen production process using sugarcane juice and seawater, reducing production costs to $1/kg and setting a new standard for sustainable innovation. By operating at room temperature and utilizing resources like seawater and wastewater, the process captures CO2, converts it into acetic acid, and produces valuable chemical byproducts. Led by Dr. Bharat Kale, the team's system relies on microorganisms to break down sugar compounds, releasing hydrogen gas and ensuring zero discharge. The university aims to scale the technology, emphasizing industry partnerships and potential commercialization. In addition to hydrogen production, MITWPU researchers are focusing on Metallo-Organic Frameworks (MOFs) to enhance hydrogen storage and capture CO2, emphasizing clean energy production and emissions reduction. The integration of MOFs into large-scale storage systems is seen as crucial for meeting energy needs while maintaining environmental standards. Furthermore, MITWPU has introduced a biodiesel production method using agro-waste, developed by Prof. Niraj Topare, Dr. Santosh Patil, and Dr. Kale. The method utilizes a catalyst derived from agricultural residues, converting crop stubble into a viable fuel source, contributing to a sustainable approach in fuel production. Through these innovations, MITWPU is advancing towards a greener future, aligning with India's efforts in sustainable development. The university's mission of combining science with sustainability emphasizes the importance of industry collaborations and government support to bring these technologies to the market within a year, showcasing India's progress towards a more environmentally friendly energy landscape.