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Posted On: 04/10/2025 5:15:40 PM
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Chemical-Assisted Water Hydrolysis Could Supercharge Energy Transition
With dozens of countries across the globe working to transition from fossil fuels to cleaner alternatives, chemical-assisted water hydrolysis may allow them to tap into a vastly underrated source of green energy: hydrogen. Green hydrogen has emerged as a promising alternative to oil, coal, and other fossil fuels due to its high energy density and ability to be stored and transported easily.
Unlike fossil fuels, which emit harmful greenhouse gases when combusted, burning hydrogen produces only water vapor. This means technologies that rely on hydrogen as an energy source generate zero emissions, making it an attractive option for reducing carbon footprints.
Despite its advantages in sectors ranging from industrial processes and power generation to transportation, the high costs associated with producing green hydrogen sustainably have hindered its widespread adoption.
Water hydrolysis is a process that uses electricity to split water into hydrogen and oxygen, with the resulting hydrogen captured for use as green energy. Known as electrolysis, current methods of producing hydrogen from water are highly energy-intensive and often require costly materials and high-purity water, making the overall production process expensive.
Chemical-assisted water hydrolysis builds on traditional electrolysis by introducing chemical catalysts that accelerate the reaction without being consumed in the process. These catalysts significantly reduce the energy required to split water, increasing efficiency and lowering production costs.
Researchers are now investigating innovative chemical pathways, including the use of nanomaterials, metal oxides, and earth-abundant compounds like nickel and iron, to further reduce the activation energy needed in hydrolysis. This research could lead to higher hydrogen yields and make production much more cost-effective.
Compared to conventional electrolysis, chemical-assisted hydrolysis is more efficient at generating hydrogen. While traditional methods waste a portion of input energy as heat, chemical catalysts enable reactions to occur at lower temperatures and faster rates, maximizing the use of energy inputs.
Moreover, chemical-assisted hydrolysis reduces production costs by eliminating the need for expensive materials such as iridium and platinum. Instead, it enables the use of more abundant and affordable alternatives, lowering the financial barriers to green hydrogen deployment.
The technology also lends itself well to scaling thanks to its simpler infrastructure requirements and reduced operational costs. This makes it viable for both large-scale industrial applications and smaller, decentralized energy systems, paving the way for broader hydrogen adoption as a clean energy solution.
As green hydrogen becomes more commercially viable, enterprises like Mullen Automotive Inc. (NASDAQ: MULN) will continue to manufacture vehicles that are charged using electricity from existing sources like hydroelectricity. These firms could eventually pivot to making vehicles that run on hydrogen when this form of fuel proves its case on the market.
NOTE TO INVESTORS: The latest news and updates relating to Mullen Automotive Inc. (NASDAQ: MULN) are available in the company’s newsroom at https://ibn.fm/MULN
Please see full terms of use and disclaimers on the GreenEnergyStocks website applicable to all content provided by GES, wherever published or re-published: https://www.greennrgstocks.com/Disclaimer
With dozens of countries across the globe working to transition from fossil fuels to cleaner alternatives, chemical-assisted water hydrolysis may allow them to tap into a vastly underrated source of green energy: hydrogen. Green hydrogen has emerged as a promising alternative to oil, coal, and other fossil fuels due to its high energy density and ability to be stored and transported easily.
Unlike fossil fuels, which emit harmful greenhouse gases when combusted, burning hydrogen produces only water vapor. This means technologies that rely on hydrogen as an energy source generate zero emissions, making it an attractive option for reducing carbon footprints.
Despite its advantages in sectors ranging from industrial processes and power generation to transportation, the high costs associated with producing green hydrogen sustainably have hindered its widespread adoption.
Water hydrolysis is a process that uses electricity to split water into hydrogen and oxygen, with the resulting hydrogen captured for use as green energy. Known as electrolysis, current methods of producing hydrogen from water are highly energy-intensive and often require costly materials and high-purity water, making the overall production process expensive.
Chemical-assisted water hydrolysis builds on traditional electrolysis by introducing chemical catalysts that accelerate the reaction without being consumed in the process. These catalysts significantly reduce the energy required to split water, increasing efficiency and lowering production costs.
Researchers are now investigating innovative chemical pathways, including the use of nanomaterials, metal oxides, and earth-abundant compounds like nickel and iron, to further reduce the activation energy needed in hydrolysis. This research could lead to higher hydrogen yields and make production much more cost-effective.
Compared to conventional electrolysis, chemical-assisted hydrolysis is more efficient at generating hydrogen. While traditional methods waste a portion of input energy as heat, chemical catalysts enable reactions to occur at lower temperatures and faster rates, maximizing the use of energy inputs.
Moreover, chemical-assisted hydrolysis reduces production costs by eliminating the need for expensive materials such as iridium and platinum. Instead, it enables the use of more abundant and affordable alternatives, lowering the financial barriers to green hydrogen deployment.
The technology also lends itself well to scaling thanks to its simpler infrastructure requirements and reduced operational costs. This makes it viable for both large-scale industrial applications and smaller, decentralized energy systems, paving the way for broader hydrogen adoption as a clean energy solution.
As green hydrogen becomes more commercially viable, enterprises like Mullen Automotive Inc. (NASDAQ: MULN) will continue to manufacture vehicles that are charged using electricity from existing sources like hydroelectricity. These firms could eventually pivot to making vehicles that run on hydrogen when this form of fuel proves its case on the market.
NOTE TO INVESTORS: The latest news and updates relating to Mullen Automotive Inc. (NASDAQ: MULN) are available in the company’s newsroom at https://ibn.fm/MULN
Please see full terms of use and disclaimers on the GreenEnergyStocks website applicable to all content provided by GES, wherever published or re-published: https://www.greennrgstocks.com/Disclaimer
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