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. (OTCQB: NEWH) is described as the developer of ThermoLoop™, a thermochemical water-splitting technology that uses water and heat instead of electricity to produce what the company characterizes as very low-cost clean or green hydrogen. The NEWH news feed highlights the company’s progress in developing this technology, its research collaboration with the University of California, Santa Barbara, and its efforts to move from laboratory experiments toward pilot-scale and pre-commercial designs.
News items for NewHydrogen commonly cover technical milestones, such as the first production of clean hydrogen using a ThermoLoop lab benchtop unit and public demonstrations of real-time hydrogen generation in a continuous looping reaction. Releases also describe patent filings jointly made with UC Santa Barbara for thermochemical water-splitting processes and materials, as well as updates on materials development, process modeling, and integration studies with power plants.
The company’s announcements frequently introduce additions to its technical team, including roles such as Chief Technology Officer, Director of Process Engineering, Senior Chemical Engineer, and members of the UCSB Technology Team. These updates explain how new team members contribute expertise in chemical engineering, dynamic reactor operation, catalytic processes, and scale-up of thermochemical systems.
Another recurring theme in NewHydrogen news is the integration of ThermoLoop with heat sources such as current and future power plants and Small Modular Reactors, which the company describes as ideal sources of baseload heat and high-temperature steam. Releases discuss preliminary design and economic studies on coupling ThermoLoop with these facilities and describe the company’s view of the potential scale of hydrogen production from such integrations.
Investors and observers following NEWH news can use this page to review company statements on technology development, research collaboration, patent activity, power-plant integration concepts, and personnel changes that the company associates with its ThermoLoop platform. Regularly checking this feed can provide a chronological view of how NewHydrogen presents the evolution of its hydrogen technology and related strategic priorities.
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.
NewHydrogen (OTCMKTS:NEWH) hosted a podcast featuring CEO Steve Hill and Dr. Claudio A. Cañizares from the University of Waterloo discussing hydrogen's role in microgrids and smart grids. Dr. Cañizares highlighted hydrogen's potential in remote communities and areas with high renewable energy variability.
The discussion emphasized hydrogen's value for seasonal energy storage, particularly in northern communities with extended winter darkness periods. While acknowledging current hydrogen systems' lower efficiency (40%) compared to batteries (90%), Dr. Cañizares noted that economics become more favorable in integrated energy systems encompassing electricity, transportation, and thermal systems.
The company announced an upcoming webinar on February 17, 2025, to reveal details about their ThermoLoop™ technology, which uses water and heat instead of electricity to produce green hydrogen.
NewHydrogen (OTCMKTS:NEWH), developer of ThermoLoop™ technology, hosted a podcast featuring CEO Steve Hill and UC Berkeley Energy Professor Dr. Daniel Kammen discussing renewable energy trends and hydrogen opportunities. Dr. Kammen highlighted that solar energy costs have dropped 90% over the past decade, while wind energy costs decreased by 60%, making new renewable plants cheaper than operating existing fossil fuel facilities.
The discussion emphasized the importance of green hydrogen for true decarbonization, distinguishing it from gray or blue hydrogen produced from fossil fuels. Dr. Kammen cited Japan's National Hydrogen Strategy as a model, suggesting complete decarbonization by the 2040s through renewable energy and hydrogen integration could achieve better energy security at lower costs.
The conversation also covered electric vehicles' potential as mobile energy storage through vehicle-to-grid (V2G) technology, recommending mandatory V2G capability in new EVs to support grid flexibility. Dr. Kammen advocated for focusing on industrial hubs to demonstrate green hydrogen's benefits while ensuring equitable distribution of advantages across communities.
NewHydrogen (OTCMKTS:NEWH), developer of ThermoLoop™ technology, hosted a podcast featuring CEO Steve Hill and Dr. Michael Shafer, Professor Emeritus at Rutgers University and President of Warm Heart Worldwide. The discussion focused on green hydrogen's potential in revolutionizing energy access for underserved communities.
Dr. Shafer emphasized the advantages of on-site green hydrogen production, particularly beneficial in regions like Malawi and Burundi where fuel costs and distribution pose significant challenges. He highlighted how local hydrogen production could eliminate dependence on expensive tanker truck transport, ensuring consistent energy access.
The discussion covered the importance of governmental support and public awareness campaigns in facilitating green hydrogen adoption. While acknowledging current higher costs compared to other renewable energy sources, Dr. Shafer noted hydrogen's faster refueling potential as an advantage over electric vehicles, especially in areas with grid infrastructure.
NewHydrogen (OTCMKTS:NEWH), developer of ThermoLoop™ technology, released a podcast featuring CEO Steve Hill and Dr. Vladimir Dvorkin from the University of Michigan discussing critical infrastructure coordination and data security. Dr. Dvorkin highlighted how data centers significantly impact power grids due to AI processing requirements and emphasized the importance of coordinating infrastructure to manage electrical loads efficiently.
The discussion covered key aspects of power grid management, including the relationship between data centers and electricity consumption, data privacy concerns in power systems, and the role of AI in infrastructure coordination. Dr. Dvorkin also addressed how major tech companies like Google, Microsoft, and Amazon manage their power supply needs through long-term planning and coordination with local utilities.
NewHydrogen (OTCMKTS:NEWH) hosted a podcast featuring CEO Steve Hill and Dr. Christopher Niezrecki from the University of Massachusetts Lowell discussing hydrogen and wind energy integration. Dr. Niezrecki emphasized the importance of long-term energy storage solutions for intermittent wind and solar power, highlighting hydrogen's versatility as fuel, fertilizer, and plastics. The discussion covered structural health monitoring for wind turbines and energy resilience. Dr. Niezrecki, Director of the Center for Energy Innovation, stressed the importance of preventive maintenance for multi-million dollar wind turbine assets and addressed various threats to energy resilience including physical, cyber, and environmental factors.
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