Green Car Congress

JANUARY 1, 2020

Scientists have long known that platinum is by far the best catalyst for splitting water molecules to produce hydrogen gas. Platinum’s high activity has conventionally been explained by its close-to-thermoneutral hydrogen binding energy (G ? Lindgren et al. Surprisingly, we find that the G ? —Lindgren et al.

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Water Design Hydrogen Energy 243

Green Car Congress

MARCH 21, 2022

In an open access paper published in Nature Communications , researchers from the University of Wollongong in Australia report that their capillary-fed electrolysis cell demonstrates water electrolysis performance exceeding commercial electrolysis cells, with a cell voltage at 0.5 kWh/kg hydrogen (vs. 2 and 85 °C of only 1.51

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Green Car Congress

JUNE 9, 2020

Scientists at Tokyo Institute of Technology (Tokyo Tech) have developed a hybrid material constructed from a metal oxide nanosheet and a light-absorbing molecule for splitting water molecules (H 2 O) to obtain hydrogen (H 2 ) under sunlight. —Kazuhiko Maeda. 0c02053.

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Water Light Hydrogen Production 320

Green Car Congress

MAY 6, 2022

Perovskite materials may hold the potential to play an important role in a process to produce hydrogen in a renewable manner, according to an analysis from scientists at the National Renewable Energy Laboratory (NREL). Electrolysis needs electricity to split water into hydrogen and oxygen.

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Solar Hydrogen Production Renewable 370

Green Car Congress

MAY 28, 2019

An international research group has improved graphene’s ability to catalyze the hydrogen evolution reaction, which releases hydrogen as a result of passing an electronic current through water. The graphene-based electrocatalyst was then used to enhance the release of hydrogen during electrolysis. Resources.

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Hydrogen Design Production Water 291

Green Car Congress

FEBRUARY 2, 2023

Honda held a press briefing in Tokyo on its hydrogen business initiatives. Honda said that it will take a proactive approach to increase the use of hydrogen as an energy carrier and strive to expand its hydrogen business, in addition to continuing to electrify its products.

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Green Car Congress

MARCH 24, 2019

Researchers at the University of Arkansas, with colleagues from Brookhaven National Lab and Argonne National Lab, have found that nanoparticles composed of nickel and iron are more effective and efficient than other more costly materials when used as catalysts in the production of hydrogen fuel through water electrolysis.

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Hydrogen Design Arkansas Production 344

Green Car Congress

DECEMBER 18, 2022

Researchers from the University of Toronto’s Faculty of Applied Science & Engineering and Fujitsu have applied quantum-inspired computing to find the promising, previously unexplored chemical family of Ru-Cr-Mn-Sb-O 2 as acidic oxygen evolution reaction catalysts for hydrogen production. A paper on their work appears in the journal Matter.

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Hydrogen Production Store Design 448

Green Car Congress

JANUARY 11, 2019

Researchers from the US Department of Energy’s (DOE) Argonne National Laboratory have combined two membrane-bound protein complexes to perform a complete conversion of water molecules to hydrogen and oxygen. This part of the reaction, however, represents only half of the overall process needed for hydrogen generation.

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Water Hydrogen Fuel Solar 259

Green Car Congress

AUGUST 23, 2021

Researchers at Monash University in Australia have conducted a lifecycle analysis and net energy analysis (LCA/NEA) of a hypothetical large-scale solar-electrolysis plant for the production of green hydrogen. of hydrogen is currently produced via water electrolysis and only a fraction of this production is powered by renewable energy.

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Solar Hydrogen Emissions Production 459

Green Car Congress

NOVEMBER 2, 2022

Scientists from the US Department of Energy’s National Renewable Energy Laboratory (NREL) and Lawrence Berkeley National Laboratory (Berkeley Lab) are providing researchers with a guide to how best to measure the efficiency of producing hydrogen directly from solar power. PEC water-splitting was first noted in scientific publications in 1972.

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Water Solar Hydrogen Standards 199

Green Car Congress

FEBRUARY 18, 2020

million) to five demonstration phase projects for low-carbon hydrogen production. The Dolphyn project showcases a floating semi-submersible design with an integrated wind turbine, PEM electrolysis and desalination facilities. The hydrogen projects receiving funding are: Dolphyn. HyNet – low carbon hydrogen plant.

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Hydrogen Carbon Production Wind 386

Green Car Congress

SEPTEMBER 12, 2021

Energy company SG H2 Energy; the City of Lancaster, California; and Iwatani, Japan’s leading hydrogen industrial gas company and a developer of hydrogen refueling stations (HRS) in California, are launching California’s first closed-loop green hydrogen ecosystem for transportation.

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Green Car Congress

MAY 13, 2021

Mitsubishi Power Americas and Texas Brine Company are collaborating to develop large-scale long-duration hydrogen storage solutions to support decarbonization efforts across the eastern United States. Long-duration hydrogen storage is a key enabling technology for the transition to a net zero carbon energy future.

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Green Car Congress

MAY 18, 2018

(SoCalGas) introduced an innovative new solar-powered hydrogen generation system during the California Air Resources Board Technology Expo and Symposium at the University of California, Riverside. Research suggests the system could produce 100 kg of hydrogen per day with a more advanced design. Earlier post.).

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Hydrogen Solar California San Diego 207

Green Car Congress

FEBRUARY 19, 2020

Scientists at Tokyo Institute of Technology (Tokyo Tech) have demonstrated the first visible-light photoelectrochemical system for water splitting using TiO 2 enhanced with cobalt. The proposed approach is simple and represents a stepping stone in the quest to achieve affordable water splitting to produce hydrogen. —Prof.

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Water Light Hydrogen Energy 312

Green Car Congress

AUGUST 24, 2020

Researchers at the University of Cambridge, with colleagues at the University of Tokyo, have developed a standalone device that converts sunlight, carbon dioxide and water into formic acid, a carbon-neutral fuel, without requiring any additional components or electricity. —senior author Professor Erwin Reisner. Qian Wang et al.

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Water CO2 Solar Convert 418

Green Car Congress

AUGUST 23, 2023

The National Energy Technology Laboratory (NETL) has published The Hydrogen Safety Review for Gas Turbines, SOFC, and High Temperature Hydrogen Production to review and summarize the unique safety challenges involved with the production, transportation and storage of hydrogen.

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Hydrogen Transportation Production Waste 150

Green Car Congress

FEBRUARY 19, 2020

million for the next phase of Gigastack, a new renewable hydrogen project, as part of the Department for Business, Energy and Industrial Strategy (BEIS) Hydrogen Supply Competition. Producing hydrogen has traditionally been associated with high carbon emissions, but by using renewable electricity—e.g., Earlier post.).

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Wind Hydrogen Renewable Low Cost 379

Green Car Congress

DECEMBER 25, 2021

A research team has developed a new artificial photosynthesis device component with remarkable stability and longevity as it selectively converts sunlight and carbon dioxide into two promising sources of renewable fuels: ethylene and hydrogen. The device produced ethylene and hydrogen with unprecedented selectivity and for more than 24 hours.

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Hydrogen CO2 Li-ion Solar 305

Green Car Congress

MARCH 27, 2021

As water-splitting technologies improve, often using porous electrode materials to provide greater surface areas for electrochemical reactions, their efficiency is often limited by the formation of bubbles that can block or clog the reactive surfaces. As a result, there were substantial changes of the transport overpotential.

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Water Carbon MIT Gas 418

Green Car Congress

OCTOBER 24, 2016

The Energy Department (DOE) recently announced $10 million, subject to appropriations, to support the launch of the HydroGEN Advanced Water Splitting Materials Consortium ( HydroGEN ). Currently, the Office of Energy Efficiency and Renewable Energy (EERE) funds research and development of low-carbon hydrogen production pathways.

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Water Hydrogen Production Green 150

Green Car Congress

DECEMBER 3, 2014

The mesh with BiVO 4 nanowire photoanode for water oxidation and Rh-SrTiO 3 nanowire photocathode for water reduction produces hydrogen gas without an electron mediator. an “artificial leaf” to produce hydrogen—based on a nanowire mesh that lends itself to large-scale, low-cost production. Credit: ACS, Liu et al.

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Water Solar Design Singapore 270

Green Car Congress

NOVEMBER 12, 2019

Researchers from the University of Houston have reported a significant breakthrough with a new oxygen evolution reaction catalyst that, combined with a hydrogen evolution reaction catalyst, achieved current densities capable of supporting industrial demands while requiring relatively low voltage to start seawater electrolysis.

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Hydrogen Production Sodium Houston 247

Green Car Congress

JUNE 21, 2021

As part of the joint work, the parties plan to evaluate the technical and commercial aspects of a potential project for the production of environmentally friendly hydrogen for Metalloinvest factories located in Belgorod and Kursk regions. Metalloinvest is already looking at modernizing equipment to use up to 30% hydrogen as a reducing gas.

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Hydrogen Carbon Production Russia 243

Green Car Congress

JUNE 3, 2020

The new electrocatalyst can be produced at large scale and low cost, providing a new paradigm in a wide application of hydrogen production by electrochemical reaction in future. Conceptual design of the multinary intermetallic electrocatalyst. Illustration of the hydrogen evolution reaction process. Source: CityU. Source: CityU.

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Low Cost Hydrogen Production Water 221

Green Car Congress

NOVEMBER 2, 2021

Canadian Pacific will significantly expand the scope of its hydrogen locomotive program ( earlier post ) with a $15-million grant announced by Emissions Reduction Alberta (ERA). The grant enables CP to increase the number of hydrogen locomotive conversions in the project from one to three and add hydrogen production and fueling facilities.

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Hydrogen Fuel Grant North America 186

Green Car Congress

MARCH 19, 2019

A Stanford-led team has developed a new electrolysis system to split seawater in hydrogen and oxygen. Existing water-splitting methods rely on highly purified water—a precious resource and costly to produce. Electrolysis of water to generate hydrogen fuel is an attractive renewable energy storage technology.

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Green Car Congress

AUGUST 16, 2021

thyssenkrupp has been awarded a contract to perform a technical study for a new green hydrogen and green ammonia project by the Emirati company Helios. A water electrolysis plant as well as a facility for sustainable ammonia production are planned to be constructed at KIZAD in Abu Dhabi, UAE, based on thyssenkrupp technology.

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UAE United Arab Emirates Hydrogen Green 186

Green Car Congress

JANUARY 22, 2022

Canadian Pacific is expanding its Hydrogen Locomotive Program from one to three locomotives, with expected delivery in 2022, and has ordered eight additional 200 kW fuel cell modules from Ballard to support the expansion. The Calgary fueling facility will include an electrolysis plant to produce hydrogen from water.

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Hydrogen North America Fuel Grant 186

Green Car Congress

AUGUST 5, 2019

Reintroducing airships into the world’s transportation mix could contribute to lowering the transport sector’s carbon emissions and can play a role in establishing a sustainable hydrogen based economy, according to a new IIASA-led study. Hydrogen is a good energy carrier and a valuable energy storage alternative.

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Hydrogen Transportation Water Conversion 268

Green Car Congress

JUNE 27, 2014

Aluminum and water react exothermically to form aluminum hydroxide and hydrogen; this basic property has lured numerous researchers interested in generating hydrogen from the aluminum-water reaction for modern transportation systems for at least 35 years. Earlier post.) —Shimamura et al. (a) Click to enlarge.

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Water Hydrogen Industrial Industry 218

Green Car Congress

JANUARY 17, 2018

A low-cost, nanostructured composite material developed by researchers at UC Santa Cruz has shown performance comparable to Pt/C as a catalyst for the electrochemical splitting of water to produce hydrogen. An efficient, low-cost catalyst is essential for realizing the promise of hydrogen as a clean, environmentally friendly fuel.

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Hydrogen Water Low Cost Carbon 170

Green Car Congress

DECEMBER 16, 2019

A team of researchers in Australia has developed a Janus nanoparticle catalyst with a nickel–iron oxide interface and multi-site functionality for a highly efficient hydrogen evolution reaction with a comparable performance to the benchmark platinum on carbon catalyst. Janus particles feature surfaces with two or more distinct properties.)

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Water Low Cost Australia Hydrogen 243

Green Car Congress

JUNE 2, 2018

A team from the University of Houston and Hunan Normal University in China has developed an active and durable oxygen evolution reaction (OER) catalyst for water splitting that meets commercial crtieria for current densities at low overpotentials. to deliver 200 mA cm -2 , unsatisfactory for the commercial requirements of 1.8-2.4

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Water China Hydrogen Houston 170

Green Car Congress

FEBRUARY 16, 2018

The life-cycle water consumption of fuel cell electric vehicles using hydrogen produced from natural gas with steam methane reforming is almost 50% less than the life-cycle water consumption of conventional internal combustion engine vehicles using gasoline, according to a study by researchers at Argonne National Laboratory (ANL).

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Water Fuel Vehicles Gasoline-Electric 225

Green Car Congress

AUGUST 25, 2016

Recently, c-Si modules have been implemented in solar-hydrogen devices, demonstrating SHE [solar-to-hydrogen efficiency] of 9.7%. As the V OC of the presented c-Si cells is only ∼600 mV, four cells need to be connected in series to achieve stable water splitting performance. Schüttauf et al. Schüttauf et al. Schüttauf et al.

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