NewHydrogen Revolutionizes Hydrogen Production with ThermoLoop Technology
Key Ideas
  • NewHydrogen, Inc. and UC Santa Barbara jointly filed a patent application for a thermochemical method to produce green hydrogen, potentially making it the cheapest globally.
  • The ThermoLoop technology utilizes heat and water instead of electrolysis, aiming to achieve higher efficiency at lower temperatures, reducing the cost of green hydrogen production.
  • By leveraging regenerable reactive solids and advanced solid-state materials, the innovative process offers a sustainable solution for various industries reliant on hydrogen, such as energy storage and transportation.
  • The collaboration between NewHydrogen and UC Santa Barbara signifies a significant advancement in materials science for hydrogen production, contributing to the future green hydrogen economy estimated at a $12 trillion market value by Goldman Sachs.
NewHydrogen, Inc., based in Santa Clarita, California, has introduced a groundbreaking technology called ThermoLoop™, designed to revolutionize the production of green hydrogen. The company, in partnership with the University of California, Santa Barbara (UCSB), has filed a patent application in the United States for a novel thermochemical method named 'Coupled Multi-Phase Oxidation-Reduction for Production of Chemicals.' This method enables the splitting of water into hydrogen and oxygen without the need for costly electrolyzers, utilizing innovative materials and machine learning-driven discovery to enhance efficiency and cost-effectiveness. The CEO of NewHydrogen, Steve Hill, expressed that this innovation represents a significant stride in hydrogen production by enabling the generation of hydrogen at lower temperatures and increased efficiency compared to traditional methods. By utilizing regenerable reactive solids to separate oxidation and reduction reactions, the technology overcomes the limitations of electrolysis and offers a more cost-effective solution. NewHydrogen's ThermoLoop technology is poised to transform industries seeking sustainable hydrogen solutions, ranging from energy storage to transportation and industrial applications. The company's collaboration with UC Santa Barbara's leading researchers highlights a major milestone in advancing materials science for hydrogen production. With a vision to make green hydrogen economically viable on a global scale, NewHydrogen aims to leverage heat and water directly to lower the cost of green hydrogen production. By bypassing the expensive process of generating electricity, the company believes it can fundamentally reduce the overall cost of green hydrogen. The utilization of heat from various sources like concentrated solar, geothermal, and industrial waste heat aligns with the goal of ushering in a green hydrogen economy with a significant future market value, as estimated by Goldman Sachs. The innovative approach to hydrogen production by NewHydrogen signifies a promising step towards a more sustainable and cost-effective future for the hydrogen industry. The company's commitment to advancing green hydrogen technology showcases a positive outlook for the transition to cleaner energy sources.
ADVANCEH2

Our vision is to be the world's leading online platform for advancing the use of hydrogen as a critical piece needed to deliver net-zero initiatives and the promise of a clean H2 energy future.

© 2025 AdvanceH2, LLC. All rights reserved.