Welcome to our dedicated page for Newhydrogen news (Ticker: NEWH), a resource for investors and traders seeking the latest updates and insights on Newhydrogen stock.
NewHydrogen, Inc. develops ThermoLoop, a thermochemical water-splitting technology designed to use water and heat rather than electricity to produce clean hydrogen. News about NEWH centers on ThermoLoop development, including laboratory demonstrations, pre-pilot technical validation, engineering test-unit work, and commercialization planning for the company’s clean hydrogen process.
Recurring updates also cover NewHydrogen’s collaboration with University of California, Santa Barbara researchers, patent filings for ThermoLoop materials and process improvements, and the use of artificial intelligence and machine learning in materials discovery. Company announcements have also addressed OTCQB trading status and strategic collaboration work evaluating high-temperature heat sources, including advanced nuclear technology, for hydrogen production.
NewHydrogen (OTCQB:NEWH) announced it will release a Special Report on October 27, 2025 after 4:00 PM ET identifying globally available, large-scale sources of heat that could power its ThermoLoop™ water‑splitting system.
The report will feature insights from Dr. Eric McFarland, CTO and co‑inventor of ThermoLoop, and Sundar Narayanan, Director of Process Engineering, who is described as having 35 years of industrial and chemical process engineering experience including 20+ years with ExxonMobil.
Investors and interested parties are directed to https://newhydrogen.com/special-report-October-2025 for the report and to https://newhydrogen.com/ for more company information.
NewHydrogen (OTCQB:NEWH) announced the addition of Dr. Austin Morales to its UCSB Technology Team to advance the development of ThermoLoop™, a breakthrough technology for producing clean hydrogen using water and heat instead of electricity.
Dr. Morales, who holds a Ph.D. in Chemical Engineering from the University of Houston, brings expertise in dynamic reactor operation and catalytic processes. He joins an established team of scientists at UCSB and NewHydrogen working on entropy-driven thermochemical water splitting. His research has been published in prestigious journals including Nature and ACS Catalysis.
The company's ThermoLoop™ technology, under development since August 2023, aims to create the world's cheapest green hydrogen through a novel thermochemical process using inexpensive heat.
NewHydrogen (OTCQB:NEWH) has achieved a significant milestone by successfully demonstrating its first production of clean hydrogen using its novel ThermoLoop™ technology. The breakthrough system uses water and heat instead of electricity to produce hydrogen, representing a potential disruption to traditional electrolyzers.
The company's laboratory demonstration showed simultaneous production of both hydrogen and oxygen in a continuous looping reaction, a crucial advancement from previous iterations. The technology aims to reduce production costs by utilizing heat sources such as concentrated solar, geothermal, nuclear reactors, and industrial waste heat, addressing the fundamental cost challenge where electricity accounts for up to 73% of current production costs in the $170 billion fossil-fuel-based hydrogen market.
NewHydrogen (OTCQB:NEWH) has appointed Sundar Narayanan as Director of Process Engineering to lead the development and scale-up of their ThermoLoop™ technology. ThermoLoop™ is a breakthrough technology that produces green hydrogen using water and heat instead of renewable electricity, aiming to create the world's cheapest green hydrogen.
Narayanan brings over 35 years of experience in process development, scale-up, and commercialization, with previous leadership roles at ExxonMobil Research & Engineering and Aspen Technology. He holds a B.Tech. in Chemical Engineering from the University of Madras and an M.S. from the University of Akron, and has contributed to several publications and patents in energy efficiency and emissions reduction.
NewHydrogen has appointed Dr. Eric McFarland as Chief Technology Officer to lead the development and commercialization of their ThermoLoop™ technology. ThermoLoop is a breakthrough innovation that produces green hydrogen using water and heat instead of electricity, potentially offering the world's cheapest hydrogen production method.
Dr. McFarland, who brings extensive experience in energy systems and reaction engineering, will collaborate with the scientific team at UC Santa Barbara led by Dr. Phil Christopher. His impressive background includes degrees from UC Berkeley and MIT, over 200 scientific publications, and more than 30 patents. He has founded several chemical technology companies and held executive positions, including roles at Symyx Technologies and Gas Reaction Technologies.
The company recently filed a joint U.S. patent application with UCSB for their novel hydrogen production process, marking a significant milestone in ThermoLoop's development. This appointment signals NewHydrogen's commitment to advancing their green hydrogen technology from laboratory scale to commercial deployment.
NewHydrogen (OTCQB:NEWH) has successfully uplisted from the Pink Open Market to the OTCQB Venture Market, effective April 21, 2025. This uplisting represents a significant milestone for the company, which is developing ThermoLoop™, a breakthrough technology that produces green hydrogen using water and heat instead of electricity.
The OTCQB Venture Market requires companies to meet higher reporting standards, undergo annual verification, management certification, and maintain current financial reporting. According to CEO Steve Hill, this move demonstrates NewHydrogen's commitment to transparency and strong governance while potentially expanding visibility to U.S. and international investors and improving stock liquidity.
NewHydrogen (OTCMKTS:NEWH) has joined the Texas Hydrogen Alliance, strengthening its position in one of America's fastest-growing hydrogen markets. The company's breakthrough ThermoLoop™ technology produces green hydrogen using water and heat instead of electricity, promising to deliver the world's cheapest green hydrogen production method.
The company recently achieved a significant milestone by jointly filing a patent application with the University of California, Santa Barbara (UCSB) for this innovative hydrogen production process. As a member of the Texas Hydrogen Alliance, NewHydrogen will collaborate with industry leaders, researchers, and policymakers to advance hydrogen adoption and infrastructure development in Texas.
NewHydrogen (OTCMKTS: NEWH) has jointly filed a patent with UC Santa Barbara for its breakthrough ThermoLoop™ technology, which produces green hydrogen using water and heat instead of electricity. The patent, titled 'Coupled Multi-Phase Oxidation-Reduction for Production of Chemicals,' introduces a novel thermochemical method that eliminates the need for expensive electrolyzers.
The technology utilizes advanced solid-state materials and machine learning-driven material discovery, operating at lower temperatures with greater efficiency than conventional methods. The process employs regenerable reactive solids to separate oxidation and reduction reactions, mimicking electrochemical processes at a lower cost.
According to Goldman Sachs estimates cited in the PR, this innovation targets a potential $12 trillion market opportunity in the green hydrogen sector, with applications spanning energy storage, transportation, and industrial uses.
NewHydrogen (NEWH) has unveiled the secret behind its breakthrough ThermoLoop™ technology, designed to produce green hydrogen using water and heat instead of electricity. The technology aims to replace conventional electrolyzers by leveraging near isothermal reactions in thermochemical water-splitting processes.
The innovation relies on novel materials developed using AI and machine learning, exploiting phase change properties as components transition between solid, liquid, and gas states. This approach addresses the historical challenge of temperature mismatches in heat-based hydrogen production systems.
ThermoLoop can utilize various heat sources, including concentrated solar, nuclear reactors, and industrial waste heat. According to CEO Steve Hill, even when converting electricity to heat, ThermoLoop is expected to outperform traditional electrolyzers in efficiency and scalability.