Hysata capillaryfed electrolyzer

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Web. Hysata's hydrogen electrolyzer technology has been recognized on the global stage with research published in scientific journal Nature Communications.. The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing .... The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg). Web. Mar 16, 2022 · the study shows that hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at a cell energy efficiency of 98 percent, far exceeding the international renewable energy agency’s (irena) 2050 target and significantly better than existing electrolyzer technologies, resulting in a hydrogen production cost of less than a$2/kg. Australia-based Hysata, which is commercializing capillary-fed electrolysis technology developed at the University of Wollongong ( earlier post) has closed its oversubscribed Series A funding round of $42.5 million AUD (US$30 million). Mar 18, 2022 · In a report published this week in Nature Communications, the team behind Hysata’s “capillary-fed electrolysis” (CFE) cell technology, said they had used it successfully to produce green hydrogen from water at 98% cell energy efficiency – a level well above the International Renewable Energy Agency’s 2050 target.. xxbuqa
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Web. Hysata continues its development Within this framework, Hysata has seen a significant increase in investment from CEFC. From an original commitment of A$750,000, the share of funds allocated will increase to A$10 million by 2022. In addition, other partners are participating to accelerate the development of Hysata's capillary-fed electrolyzer. The company's The research confirms Hysatas capillary-fed electrolysis cell can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Developer of hydrogen electrolyzer designed to accelerate the world's shift away from fossil fuels to green hydrogen.

Web. In a report published this week in Nature Communications, the team behind Hysata's "capillary-fed electrolysis" (CFE) cell technology, said they had used it successfully to produce green.

Mar 16, 2022 · The research confirms Hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency’s (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg).. Web.

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The enormous leap in question was made as a result of a new fuel cell design known as Hysata’s Capillary Fed Electrolysis cell, or the CFE cell for short. The CFE cell consists of a spongy membrane that sucks up electrolytes from a reservoir contained at the bottom of the cell.. Web. Web.

Mar 18, 2022 · In a report published this week in Nature Communications, the team behind Hysata’s “capillary-fed electrolysis” (CFE) cell technology, said they had used it successfully to produce green hydrogen from water at 98% cell energy efficiency – a level well above the International Renewable Energy Agency’s 2050 target.. Mar 16, 2022 · The research confirms Hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency’s (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg).. Web.

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Web. Web. Web. Web. Mar 16, 2022 · The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA)....

Currently, a state-of-the-art commercial water electrolyzer takes around 53 kWh of electricity to produce 1 kg of hydrogen which contains 39.4 kWh of energy. Out of this, the electrolysis cell consumes 47.5 kWh of electricity. The researchers say IRENA has set a target to reduce cell energy consumption to below 42 kWh per kg by 2050 which will .... Australian company Hysata says its new capillary-fed electrolyzer cell slashes that energy cost to 41.5 kWh, smashing efficiency records while also being cheaper to install and run. The company promises green hydrogen at around US$1.50 per kilogram within just a few years. ... If Hysata's new electrolyzer technology does what it says on the tin. Nov 02, 2022 · March 16 (Renewables Now) - Australian hydrogen electrolyser technology developer Hysata on Wednesday said its capillary-fed electrolysis cell can produce green hydrogen from water at 98% cell energy efficiency as has been confirmed by research published in peer-reviewed scientific journal Nature Communications. This is a world-beating .... Web. Hysata is developing a completely new type of electrolyser, featuring the world’s most efficient electrolysis cell, coupled with a simplified balance of plant. Electricity makes up most of the cost of green hydrogen and therefore, the most efficient electrolyser will deliver the lowest cost hydrogen. Efficiency wins.. An igniting portfolio theme designed to help you leave quite a mark. best grow room humidifier. shark cordless pet plus vs lg cordzero WolfGanGvanWolf.

How Hysata's capillary-fed electrolyzer cell works Image: Hysata Image: Hysata The Hysata electrolyzer consumes 40.4kWh of energy for every kilogram of hydrogen it produces. The Nature paper noted commercial electrolysis cells tend to use around 47.5kWh/kg, though Hysata CEO Paul Barrett claimed it was closer to 52.5kWh/kg. Mar 18, 2022 · Mar. 18th 2022. Hysata, a startup spin-off the University of Wollongong, Australia, claimed an important breakthrough for the production of green hydrogen. Hysata has developed a new electrolyzer highly promising, as it is considered the world’s most efficient, capable to reach giga-scale by 2025. In a report published this week in Nature ....

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Mar 16, 2022 · Australian company Hysata says its new capillary-fed electrolyzer cell slashes that energy cost to 41.5 kWh, smashing efficiency records while also being cheaper to install and run. The....

Aug 05, 2022 · Australian start-up-Hysata, which claims to develop the world’s most efficient capillary fed electrolyzer with a 95% efficiency, has secured Series A funding of AUD $42.5 million ($29.4m) to scale-up and mass manufacture its propriety electrolyzer technology by developing a pilot manufacturing facility.. Web. Web. Web. Meet the Bloom Electrolyzer. Our solid oxide technology can be paired with renewable energy sources to create clean, low-cost hydrogen with industry-leading. Hysata's capillary-fed electrolyzer, for example, only takes 41.5kWh per kilogram of hydrogen to run, compared to 52.5 kWh of current commercial electrolyzers. That's a whopping 95% overall system efficiency, 4 which blows the industry's standard 75% efficiency out of the water. Web.

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Green hydrogen. Efficiency wins.. Hysata’s revolutionary high-efficiency electrolyser will deliver the world’s lowest cost green hydrogen. Contact. May 03, 2022 · In the new capillary-fed electrolyzer cell — designed by Hysata (Wollongong, Australia; www.hysata.com) based on research from the University of Wollongong ( www.uow.edu.au) — water is supplied to electrodes using capillary transport facilitated by a commercially available wicking membrane.. Mar 18, 2022 · In a report published this week in Nature Communications, the team behind Hysata’s “capillary-fed electrolysis” (CFE) cell technology, said they had used it successfully to produce green hydrogen from water at 98% cell energy efficiency – a level well above the International Renewable Energy Agency’s 2050 target.. How Hysata's capillary-fed electrolyzer cell works Image: Hysata . The Hysata electrolyzer consumes 40.4kWh of energy for every kilogram of hydrogen it produces. The Nature paper noted commercial electrolysis cells tend to use around 47.5kWh/kg, though Hysata CEO Paul Barrett claimed it was closer to 52.5kWh/kg. This equates to around 75% .... Web.

Hysata’s Electrolyte Breaks The World Record Of Efficiency By 95% Efficiency. 22/03/2022 Drive Pilots Hysata. Hysata says its capillary-fed electrolyzer cell slashes that energy cost to 41.5 kWh, smashing efficiency records and lowering green H2.. Aug 02, 2022 · Hysata’s new ultra-high efficiency electrolyser is based on a recent scientific breakthrough in alkaline electrolysis at the fundamental cell level. Capillary fed electrolysis (CFE) is a new cell-level process in which the water being split is introduced directly into the centre of the cell via the membrane rather than being forced onto the ....

An Australian company called Hystata has announced that it has discovered a way to produce hydrogen through electrolysis at 98 per cent cell efficiency. The company's press release is here: https://www.prnewswire.com/news-releases/hysatas-electrolyser-breaks-efficiency-records-enabling-world-beating-green-hydrogen-cost-301503964.html. Web.

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. Hysata, based in New South Wales, was recently recognised in top-tier scientific journal Nature Communications, for its 'capillary-fed electrolysis cell'. Considered a "giant leap" in the field, the cell boasts a 95% efficiency rate, beating current technology by around 25%. New electrolyser to deliver "world's lowest hydrogen cost".

Mar 16, 2022 · Australian company Hysata says its new capillary-fed electrolyzer cell slashes that energy cost to 41.5 kWh, smashing efficiency records while also being cheaper to install and run. The.... Paul Barrett, CEO of Hysata said the technology will allow green hydrogen to "outcompete fossil fuel-derived hydrogen" with production cost to fall below US$1.5/kg by the mid-2020s putting. Web. Nov 02, 2022 · March 16 (Renewables Now) - Australian hydrogen electrolyser technology developer Hysata on Wednesday said its capillary-fed electrolysis cell can produce green hydrogen from water at 98% cell energy efficiency as has been confirmed by research published in peer-reviewed scientific journal Nature Communications. This is a world-beating .... Hysata brings capillary-fed eletrolyzer tech closer to commercial production Australian startup Hysata is seeking to commercialize a breakthrough made at the University of Wollongong which CEO Paul Barrett describes as a "brand new category of electrolyzer" with 95% system efficiency. Meet Gerry from team Hysata - one of the most humble-brilliant inventors of our time. Thanks Dr. Swiegers for your amazing contributions to the field .... Web. Mar 16, 2022 · the study shows that hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at a cell energy efficiency of 98 percent, far exceeding the international renewable energy agency’s (irena) 2050 target and significantly better than existing electrolyzer technologies, resulting in a hydrogen production cost of less than a$2/kg. Web.

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The research confirms Hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency’s (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg). After a recent development by Australian researchers, hydrogen energy may potentially become a viable competitor in the race for renewable energy predominance in the not so distant future. The enormous leap in question was made as a result of a new fuel cell design known as Hysata’s Capillary Fed Electrolysis cell, or the CFE cell for short.. Hysata brings capillary-fed eletrolyzer tech closer to commercial production Australian startup Hysata is seeking to commercialize a breakthrough made at the University of Wollongong which CEO Paul Barrett describes as a "brand new category of electrolyzer" with 95% system efficiency. Web. Web. The Hysata technology has been proven at lab-scale and the company, which has strong scientific, engineering and commercialisation experience, is now focused on developing and commercialising a full-scale system. Hysata is based at UOW's Australian Institute for Innovative Materials. Professor Swiegers said: "Inexpensive green hydrogen is. Web. Mar 17, 2022 · Hysata, a company using technology developed at the University of Wollongong, said its patented capillary-fed electrolysis cells achieve 95 percent efficiency, meaning little wastage, beating....

After a recent development by Australian researchers, hydrogen energy may potentially become a viable competitor in the race for renewable energy predominance in the not so distant future. The enormous leap in question was made as a result of a new fuel cell design known as Hysata’s Capillary Fed Electrolysis cell, or the CFE cell for short..

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Mar 18, 2022 · Mar. 18th 2022. Hysata, a startup spin-off the University of Wollongong, Australia, claimed an important breakthrough for the production of green hydrogen. Hysata has developed a new electrolyzer highly promising, as it is considered the world’s most efficient, capable to reach giga-scale by 2025. In a report published this week in Nature .... Apr 06, 2022 · Australian company Hysata says its new capillary-fed electrolyzer cell slashes that energy cost to 41.5 kWh, smashing efficiency records while also being cheaper to install and run.. Mar 16, 2022 · The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA .... Web. Web.

Mar 16, 2022 · The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA .... Web.

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March 21, 2022. Ground-breaking research has confirmed that Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above IRENA's 2050 target, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg). The technology was invented by scientists at the University of. Developer of hydrogen electrolyzer designed to accelerate the world's shift away from fossil fuels to green hydrogen. The company's electrolyzers use electricity to split water into hydrogen and oxygen to produce green hydrogen to meet the energy demand, helping companies reach net-zero emissions. Contact Information Website www.hysata.com. Mar 18, 2022 · Mar. 18th 2022. Hysata, a startup spin-off the University of Wollongong, Australia, claimed an important breakthrough for the production of green hydrogen. Hysata has developed a new electrolyzer highly promising, as it is considered the world’s most efficient, capable to reach giga-scale by 2025. In a report published this week in Nature ....

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Web. Mar 20, 2022 · An Australian company called Hystata has announced that it has discovered a way to produce hydrogen through electrolysis at 98 per cent cell efficiency. The company’s press release is here: https://www.prnewswire.com/news-releases/hysatas-electrolyser-breaks-efficiency-records-enabling-world-beating-green-hydrogen-cost-301503964.html. . Sep 12, 2022 · Australian start-up-Hysata, which claims to develop the world’s most efficient capillary fed electrolyzer with a 95% efficiency, has secured Series A funding of AUD $42.5 million ($29.4m) to scale-up and mass manufacture its propriety electrolyzer technology by developing a pilot manufacturing facility..

Mar 28, 2022 · The research confirms Hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency’s (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg). Note..

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Web. Apr 07, 2022 · A kilogram of hydrogen holds 39.4 kWh of energy, but typically costs around 52.5 kWh of energy to create via current commercial electrolyzers. Australian company Hysata says its new capillary-fed .... Web. Web. How Hysatas capillary-fed electrolyser cell works Hysata The Hysata electrolyser consumes 40.4 kWh of energy for every kilogram of hydrogen it produces. The Nature paper noted commercial electrolysis cells tend to use around 47.5 kWh/kg, though Hysata CEO Paul Barrett claimed it was closer to 52.5kWh/kg. Hysata has developed a new electrolyzer highly promising, as it is considered the world's most efficient, capable to reach giga-scale by 2025. In a report published this week in Nature Communications, the team behind Hysata's "capillary-fed electrolysis" (CFE) cell technology, said they had used it successfully to produce green hydrogen. Mar 16, 2022 · The study shows that Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at a cell energy efficiency of 98 percent, far exceeding the International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing electrolyzer technologies, resulting in a hydrogen production cost of less than A$2/kg (US$1.50/kg)..

Hysata's hydrogen electrolyzer technology has been recognized on the global stage with research published in scientific journal Nature Communications.. The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing ....

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Web. Mar 18, 2022 · Mar. 18th 2022. Hysata, a startup spin-off the University of Wollongong, Australia, claimed an important breakthrough for the production of green hydrogen. Hysata has developed a new electrolyzer highly promising, as it is considered the world’s most efficient, capable to reach giga-scale by 2025. In a report published this week in Nature ....

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Mar 16, 2022 · The research confirms Hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency’s (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg).. Hysata, based in New South Wales, was recently recognised in top-tier scientific journal Nature Communications, for its 'capillary-fed electrolysis cell'. Considered a "giant leap" in the field, the cell boasts a 95% efficiency rate, beating current technology by around 25%. New electrolyser to deliver "world's lowest hydrogen cost". Hysata Technology Hysata’s Electrolyte Breaks The World Record Of Efficiency By 95% Efficiency. 22/03/2022 Drive Pilots Hysata Hysata says its capillary-fed electrolyzer cell slashes that energy cost to 41.5 kWh, smashing efficiency records and lowering green H2 Drivepilots.com Read more. An Australian company called Hystata has announced that it has discovered a way to produce hydrogen through electrolysis at 98 per cent cell efficiency. The company's press release is here: https://www.prnewswire.com/news-releases/hysatas-electrolyser-breaks-efficiency-records-enabling-world-beating-green-hydrogen-cost-301503964.html.

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Web. Web. The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg)..

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Web. the study shows that hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at a cell energy efficiency of 98 percent, far exceeding the international renewable energy agency's (irena) 2050 target and significantly better than existing electrolyzer technologies, resulting in a hydrogen production cost of less than a$2/kg. . Web. Web.

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Web. Hysata, a company using technology developed at the University of Wollongong, said its patented capillary-fed electrolysis cells achieve 95% efficiency, meaning little wastage, beating by about.

Web. Mar 17, 2022 · Australian electrolyser manufacturer Hysata claims its electrolyser technology could enable hydrogen production costs to fall below US$1.5/kg by the mid-2020s. The research, which was published in ....

Australia-based Hysata, which is commercializing capillary-fed electrolysis technology developed at the University of Wollongong ( earlier post) has closed its oversubscribed Series A funding round of $42.5 million AUD (US$30 million).

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Web. Jun 16, 2021 · $5 million seed round led by IP Group Hysata, a company spun out of the University of Wollongong (UOW) to commercialise breakthrough Australian hydrogen electrolyser technology, officially opened its doors today with $5 million in funding led by IP Group, with support from the Clean Energy Finance Corporation (CEFC).. Web.

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Web. March 21, 2022. Ground-breaking research has confirmed that Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above IRENA's 2050 target, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg). The technology was invented by scientists at the University of.

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Hysata has developed an ultra-high efficiency electrolyzer, which they believe is a milestone on the road to green hydrogen for under AUD$2.00 a kg (US$1.50/kg). That is a far cry from 1969, when.

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An Australian company called Hystata has announced that it has discovered a way to produce hydrogen through electrolysis at 98 per cent cell efficiency. The company's press release is here: https://www.prnewswire.com/news-releases/hysatas-electrolyser-breaks-efficiency-records-enabling-world-beating-green-hydrogen-cost-301503964.html. An Australian company called Hystata has announced that it has discovered a way to produce hydrogen through electrolysis at 98 per cent cell efficiency. The company's press release is here: https://www.prnewswire.com/news-releases/hysatas-electrolyser-breaks-efficiency-records-enabling-world-beating-green-hydrogen-cost-301503964.html.

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May 03, 2022 · In the new capillary-fed electrolyzer cell — designed by Hysata (Wollongong, Australia; www.hysata.com) based on research from the University of Wollongong ( www.uow.edu.au) — water is supplied to electrodes using capillary transport facilitated by a commercially available wicking membrane..

Sep 12, 2022 · Australian start-up-Hysata, which claims to develop the world’s most efficient capillary fed electrolyzer with a 95% efficiency, has secured Series A funding of AUD $42.5 million ($29.4m) to scale-up and mass manufacture its propriety electrolyzer technology by developing a pilot manufacturing facility..

Mar 17, 2022 · The research, which was published in the peer-reviewed scientific journal Nature Communications, confirmed Hysata’s ‘capillary-fed electrolysis cell’ can deliver a 95% system efficiency, almost.... Web. How Hysata's capillary-fed electrolyzer cell works Image: Hysata Image: Hysata The Hysata electrolyzer consumes 40.4kWh of energy for every kilogram of hydrogen it produces. The Nature paper noted commercial electrolysis cells tend to use around 47.5kWh/kg, though Hysata CEO Paul Barrett claimed it was closer to 52.5kWh/kg.

Hysata CTO Gerry Swiegers and Linh Hoang recently presented at Fraunhofer IFAM's Advanced Alkaline Electrolysis workshop in Dresden, Germany. The development of new materials to improve alkaline electrolysis was a key feature of the workshop with several presentations focused on novel 3D-structured electrodes that intensified the alkaline electrolysis process.

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Mar 28, 2022 · The research confirms Hysata’s ‘capillary-fed electrolysis cell’ can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency’s (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg). Note..

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The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing electrolyzer technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg)..

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The research confirms Hysata's 'capillary-fed electrolysis cell' can produce green hydrogen from water at 98% cell energy efficiency, well above International Renewable Energy Agency's (IRENA) 2050 target and significantly better than existing electrolyser technologies, enabling a hydrogen production cost well below A$2/kg (US$1.50/kg).

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