Water, Oxygen, Electrode, Anode, Electrolysis, Hydrogen

Economizing on iridium - iridium is an ideal catalyst for the electrolytic production of hydrogen from water

On Nov 6, 2020
@EnergyCollectiv shared
Economizing on iridium - iridium is an ideal catalyst for the electrolytic production of #hydrogen from water https://t.co/7FzHlutd84 https://t.co/JdrieoeMSa
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Originally posted here. HydrogenHydrogen plays an important role as an energy carrier for sustainable development1-8 and it is also expected to be used as secondary energy in near feature. ...

energycentral.com
On Nov 6, 2020
@EnergyCollectiv shared
Economizing on iridium - iridium is an ideal catalyst for the electrolytic production of #hydrogen from water https://t.co/7FzHlutd84 https://t.co/JdrieoeMSa
Open

Economizing on iridium - iridium is an ideal catalyst for the electrolytic production of hydrogen from water

Economizing on iridium - iridium is an ideal catalyst for the electrolytic production of hydrogen from water

Originally posted here. HydrogenHydrogen plays an important role as an energy carrier for sustainable development1-8 and it is also expected to be used as secondary energy in near feature. ...

Next generation water splitter could help renewables power the globe

Next generation water splitter could help renewables power the globe

Devices that forgo expensive metals could turn renewable electricity into hydrogen

Study shows a much cheaper catalyst can generate hydrogen in a commercial device

Study shows a much cheaper catalyst can generate hydrogen in a commercial device

Replacing today’s expensive catalysts could bring down the cost of producing the gas for fuel, fertilizer and clean energy storage.

Solar-driven, highly sustained splitting of seawater into hydrogen and oxygen fuels

Solar-driven, highly sustained splitting of seawater into hydrogen and oxygen fuels

Electrolysis of water to generate hydrogen fuel could be vital to the future renewable energy landscape. Electrodes that can sustain seawater splitting without chloride corrosion could ...

10 disruptive battery technologies trying to compete with lithium-ion

10 disruptive battery technologies trying to compete with lithium-ion

The modern world runs on lithium-based batteries. Numerous chemistries and novel technologies are being developed to counter the limitations of Li-ion batteries though, including the high ...

Lithium-oxygen batteries are getting an energy boost

Lithium-oxygen batteries are getting an energy boost

A new version of the lithium-oxygen battery could pack more energy and last longer than its predecessors.

Hydrogen Fuel Created From Seawater and Solar Power

Hydrogen Fuel Created From Seawater and Solar Power

Scientists were able to electrolyze seawater for up to 1,000 hours and at the same current density used in industrial electrolyzers.

Tesla improves on its ‘million-mile battery’ with less cobalt and higher energy density

Tesla improves on its ‘million-mile battery’ with less cobalt and higher energy density

Tesla has made even more battery improvements on its new ‘million-mile battery’ now with less cobalt, which could result in lower cost and even more energy density. Last year, we were the ...

Removing CO2 from power plant exhaust

Removing CO2 from power plant exhaust

In brief Some power plants use materials called sorbents to remove carbon dioxide (CO2) from their exhaust so it can be sequestered from the environment. But separating the CO2 from the ...

Hydrogen

Hydrogen

Hydrogen - Analysis and key findings. A report by the International Energy Agency.

New Catalyst Outshines Platinum for Producing Hydrogen

New Catalyst Outshines Platinum for Producing Hydrogen

New PNNL research shows that a pairing of humble minerals outshines other reactive materials when it comes to producing hydrogen.

China, Switzerland working on splitting water for clean fuel

China, Switzerland working on splitting water for clean fuel

Nickel-based catalyst can trigger water-splitting with less electricity needed for electrolysis of water