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H2U Technologies Demonstrates First-of-its-Kind Iridium-Free PEM Electrolyzer for Hydrogen Production
H2U Technologies Demonstrates First-of-its-Kind Iridium-Free PEM Electrolyzer for Hydrogen Production

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Dual-Atom Catalysts for the Hydrogen Evolution Reaction
Dual-Atom Catalysts for the Hydrogen Evolution Reaction

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W-Mediated Electron Accumulation in Ru−O−W Motifs Enables Ultra-Stable Oxygen Evolution Reaction in Acid
W-Mediated Electron Accumulation in Ru−O−W Motifs Enables Ultra-Stable Oxygen Evolution Reaction in Acid

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Novel catalyst enhances oxygen evolution reaction in acidic conditions to boost green hydrogen production
Novel catalyst enhances oxygen evolution reaction in acidic conditions to boost green hydrogen production

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One step closer to the green hydrogen era: New material boosts production efficiency and reduces costs
One step closer to the green hydrogen era: New material boosts production efficiency and reduces costs

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New Study Changes Understanding of Green Hydrogen Catalyst Lifespan
New Study Changes Understanding of Green Hydrogen Catalyst Lifespan

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Green Hydrogen from Wastewater─A Dual Crisis Resolution
Green Hydrogen from Wastewater─A Dual Crisis Resolution

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Effective new catalyst brings hope for cleaner energy, wastewater treatment, and green chemistry
Effective new catalyst brings hope for cleaner energy, wastewater treatment, and green chemistry

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Comparative techno-economic evaluation of alkaline and proton exchange membrane electrolysis
Comparative techno-economic evaluation of alkaline and proton exchange membrane electrolysis

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W-Mediated Electron Accumulation in Ru−O−W Motifs Enables Ultra-Stable Oxygen Evolution Reaction in Acid
W-Mediated Electron Accumulation in Ru−O−W Motifs Enables Ultra-Stable Oxygen Evolution Reaction in Acid

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U Of T Engineering Professor Leads New Global Collaboration to Advance Net-zero Hydrogen Economy
U Of T Engineering Professor Leads New Global Collaboration to Advance Net-zero Hydrogen Economy

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Breakthrough electrolyser development: 200 times less iridium needed
Breakthrough electrolyser development: 200 times less iridium needed

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Toshiba’s New Large-scale Production Technology for Electrolysis Electrodes for Hydrogen Production from Renewables Cuts Iridium Use to 1/10
Toshiba’s New Large-scale Production Technology for Electrolysis Electrodes for Hydrogen Production from Renewables Cuts Iridium Use to 1/10

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