Dr. Manish Shetty, a researcher at Texas A&M University, has devised a groundbreaking method to tackle plastic pollution and promote sustainable energy sources. By converting plastic waste, particularly PET, into green hydrogen, Dr. Shetty's innovative approach not only addresses the environmental crisis posed by plastic but also provides a clean and renewable energy source. The process involves breaking down plastic polymers into aromatic compounds using minimal solvents, subsequently transforming them into green hydrogen through rotary detonation combustion. This eco-friendly and cost-effective solution not only mitigates the impact of plastic waste but also offers a promising avenue for sustainable energy production. Dr. Shetty's research focuses on repurposing plastic waste into valuable energy resources, emphasizing the dual benefits of addressing plastic pollution and meeting the demand for clean energy. The integration of organic liquid hydrogen carriers further enhances the accessibility and transportability of the produced hydrogen, making it suitable for various applications. Specialized catalysts developed by Dr. Shetty's team play a crucial role in the efficient breakdown of plastics into useful chemicals, ensuring high-quality products that can be utilized in industrial processes. Published in Angewandte Chemie, this research signifies a significant step forward in sustainable chemistry, highlighting the potential to revolutionize waste management and the chemical industry. Dr. Shetty's work not only offers a practical solution to environmental challenges but also contributes to the development of a cleaner energy future. With continued advancements and investment, this technology has the potential to make a substantial impact on environmental sustainability and the global energy market.