As the world faces the urgent need for sustainable energy solutions, researchers at North Carolina Agricultural and Technical State University are pioneering efforts to double green hydrogen production. Dr. Bishnu Bastakoti and his team are utilizing an artificial sun to enhance efficiency, developing a novel honeycomb material based on iron titanate. This innovation allows for the utilization of sunlight to produce green hydrogen without greenhouse gas emissions, marking a significant advancement in the pursuit of sustainable energy solutions. The team's research addresses challenges in green hydrogen production by creating a controlled environment with a solar simulator to accurately measure energy transfer to water molecules. The honeycomb structure, designed based on iron titanate, significantly increases hydrogen output compared to existing materials. Dr. Bastakoti highlights the economic implications of transitioning to green hydrogen, stressing the long-term benefits for future generations. While the initial costs of green hydrogen technology are high, the research at North Carolina A&T exemplifies the importance of investing in sustainable energy solutions to reduce ecological footprints and combat climate change. The innovative approach to material science opens new possibilities for efficient energy production, with broad implications for the energy sector. The success of this research could lead to widespread adoption of green hydrogen technologies, setting a new standard for sustainability and economic growth in the energy industry.