A research team at Clemson University, led by Ming Yang, is investigating a groundbreaking method to extract hydrogen from ammonia, offering a promising solution to the challenges of hydrogen transport and storage. Yang's team is focusing on using ammonia as a chemical carrier for hydrogen, with each molecule containing three hydrogen atoms. The research aims to develop a Magnetic Induction Heating (MIH) technique that can swiftly raise the temperature of ammonia without the need for fossil fuels, relying instead on a magnetic field powered by renewable electricity sources like wind and solar. The innovative approach not only accelerates the extraction of hydrogen but also minimizes energy waste associated with traditional methods. Yang's vision includes making hydrogen more accessible for clean vehicle propulsion and off-grid technologies, potentially revolutionizing the energy landscape. The research, supported by a CAREER Award from the National Science Foundation, holds the promise of advancing sustainable energy solutions. Beyond the scientific endeavors, Yang's project encompasses an educational outreach initiative. It involves engaging K-12 students in STEM activities to foster an understanding of energy concepts. Undergraduates will have the opportunity to participate in research through Clemson's Creative Inquiry program, while graduate students will receive specialized training in catalysis and reaction engineering, preparing them for leading roles in developing future energy solutions. The holistic approach of research and education underscores the importance of innovation and collaboration in shaping a greener energy future.