Beursonline.nl

Radikal 6 september 2022 12:57

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SunHydrogen Unveils Prototype Design for its Nanoparticle-Based Green Hydrogen Technology

SANTA BARBARA, CA – September 6, 2022 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today provided a first look at the prototype design for its forthcoming nanoparticle-based green hydrogen technology.

“Within an individual SunHydrogen panel, billions of microscopic nanoparticles are splitting apart water at the molecular level to produce hydrogen and oxygen,” said SunHydrogen’s Chief Scientific Officer Dr. Syed Mubeen.

“What you see in the rendered images below is a single prototype panel contained in protective housing,” Dr. Mubeen continued. “In a future hydrogen production plant or farm, our panels would be scaled up in dimension to form a larger, more powerful array. Essentially, this prototype shows a small-scale version of both our technology and its housing.”

SunHydrogen’s prototype design carefully integrates the Company’s proprietary catalysts, light absorber and membrane integration assembly. The panel housing is built from lightweight, stable, modular materials that are easily scalable for mass manufacturing. Additionally, the design allows for efficient use of sunlight to maximize hydrogen production during the day with minimal water consumption.

SunHydrogen’s nanoparticle technology directly uses the electrical charges created by sunlight to generate hydrogen when the Sun is shining. However, when the Sun is not shining, this prototype is also able to power the catalyst and membrane integration assembly using renewable grid electricity from wind or hydropower sources.

Once the prototype design is realized, the Company’s scientific team will begin evaluating its performance and individual design elements to ensure efficient hydrogen production and collection.

“The completion of this initial prototype design marks another milestone in our path to commercializing our nanoparticle technology,” said Dr. Mubeen. “We look forward to sharing additional updates with our shareholders and supporters as we continue working toward our 2022 goals.”

Johan8 19 september 2022 13:30

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www.sunhydrogen.com/news

news today

nine_inch_nerd 19 september 2022 14:48

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Niet echt. Was al bekend.

nine_inch_nerd 22 september 2022 16:52

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quote:
voda schreef op 20 september 2022 08:28:
SunHydrogen Unveils Nanoparticle-Based Green Hydrogen Design

Strategic Research Institute
Published on :
20 Sep, 2022, 6:47 am

Santa Barbara California based SunHydrogen has provided a first look at the prototype design for its forthcoming nanoparticle-based green hydrogen technology. SunHydrogen’s Chief Scientific Officer Dr Syed Mubeen said “Within an individual SunHydrogen panel, billions of microscopic nanoparticles are splitting apart water at the molecular level to produce hydrogen and oxygen. What you see in the rendered images is a single prototype panel contained in protective housing. In a future hydrogen production plant or farm, our panels would be scaled up in dimension to form a larger, more powerful array. Essentially, this prototype shows a small-scale version of both our technology and its housing.”

SunHydrogen’s prototype design carefully integrates the Company’s proprietary catalysts, light absorber and membrane integration assembly. The panel housing is built from lightweight, stable, modular materials that are easily scalable for mass manufacturing. Additionally, the design allows for efficient use of sunlight to maximize hydrogen production during the day with minimal water consumption.

SunHydrogen’s nanoparticle technology directly uses the electrical charges created by sunlight to generate hydrogen when the Sun is shining. However, when the Sun is not shining, this prototype is also able to power the catalyst and membrane integration assembly using renewable grid electricity from wind or hydropower sources.

Once the prototype design is realized, the Company’s scientific team will begin evaluating its performance and individual design elements to ensure efficient hydrogen production and collection.

SunHydrogen is developing a breakthrough, low-cost technology to make renewable hydrogen using sunlight and any source of water, including seawater and wastewater.

nine_inch_nerd 11 oktober 2022 13:04

1

Voor wie nog meedoet...

SunHydrogen Receives India Patent for its Nanoparticle-Based Green Hydrogen Technology
SANTA BARBARA, CA – October 11, 2022 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced that it has received the India Patent Office’s decision to grant its patent “Multi-junction artificial photosynthetic cell with enhanced photovoltages.”

The patent, which is currently active in the US, Australia, China and Europe, is jointly held by SunHydrogen and the Regents of the University of California, in accordance with the Company’s prior research agreement with the University of California, Santa Barbara.

This patent protects SunHydrogen’s semiconductor design, which features high-density arrays of nano-sized, high-voltage solar cells. This innovative structure serves as the core of the Company’s nanoparticle technology.

Within one of SunHydrogen’s nanoparticle-based hydrogen generation units, billions of nanoparticles per square centimeter split apart water at the molecular level. These nanoparticles are comprised of multiple layers of solar cells. The high-voltage, high-light absorbing properties of the solar cells enable the Company to make them ultrathin and with significantly fewer materials, lowering costs and raising efficiency.

“This patent protects the foundation of our technology,” said SunHydrogen’s CEO Tim Young. “This most recent grant in India, alongside our existing grants in the US, Australia, China and Europe, underscores our commitment to protecting our intellectual property.”

“We believe our nanoparticle technology has the potential to provide widespread access to low-cost green hydrogen across key sectors including transportation, industry and shipping,” Mr. Young continued. “Our ambitions are particularly relevant in India, where the power ministry has put forth plans to produce 5 million tonnes of green hydrogen per year by 2030. We look forward to further expanding our patent portfolio in the coming years.”

nine_inch_nerd 20 oktober 2022 13:37

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quote:
cdbe schreef op 20 oktober 2022 13:24:
www.vrt.be/vrtnws/nl/2022/10/18/binne...

Mooi. Loopt nog iets achter op Sunhydrogen.
www.iex.nl/Forum/Topic/1311236/Amerik...
Maar als Sunhydrogen niet opschiet halen ze 'm in.

nine_inch_nerd 15 november 2022 11:35

1

Mmmm, geen grote speler, maar ook geen kleintje.

SunHydrogen Announces $10M Strategic Investment in Norway-Based TECO 2030 ASA

SANTA BARBARA, CA – November 15, 2022 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced that it has invested $10M in TECO 2030 ASA (Oslo Stock Exchange: TECO, OTCQX: TECFF).

A Norway-based company, TECO 2030 is the developer of zero-emission technology for the maritime and heavy industry sectors. TECO 2030 is currently accelerating the transition to renewable fuels by developing and building Europe’s first gigafactory of hydrogen PEM fuel cell stacks for medium to heavy-duty trucks and PEM fuel cell modules for maritime applications.

Most recently, TECO 2030, Shell, and additional partners received €5 million in funding from Horizon Europe to realize the HyEkoTank, a hydrogen powered tanker that will look to lead the maritime shipping sector in achieving climate targets set by the European Union.

Additionally, earlier this year TECO 2030 announced a new collaboration with their longtime development partner AVL in which TECO 2030 will provide fuel cell stacks with energy capacities above 300kW for AVL’s HyTruck fuel cell system.

“Over the past year, we have considered many companies in the hydrogen space for strategic investment,” said SunHydrogen’s CEO Tim Young. “We believe TECO 2030’s fuel cell technology, designed with their development partner AVL, has shown incredible potential to become a key player in the fuel cell market.”

“In addition to our commitment to developing our nanoparticle technology, SunHydrogen is in parallel committed to enabling the green hydrogen economy,” Mr. Young continued. “Through our cooperation with TECO 2030, we believe our companies can make a significant impact in a fast-growing market that Goldman Sachs estimates to be worth $12 trillion by 2050.”

SunHydrogen’s $10M total strategic investment is in two parts. The first is a $7M direct investment for shares equal to 9.3% of TECO 2030. The second is a $3M convertible note at 8% interest that will be convertible into 6.1 million shares at 5.08 Norwegian Krone per share.

Following the investment, SunHydrogen shall designate a director to serve on TECO 2030’s board of directors. As part of the investment, the two parties agree to pursue a potential business combination and an up-listing onto a US stock exchange will be explored.

“This strategic investment by SunHydrogen will give us more visibility and a strong strategic partner in the US which has very ambitious hydrogen plans,” said TECO 2030’s CEO Tore Enger. “I am looking forward to cooperating with SunHydrogen on our mission toward zero emission fuel cell projects.”

nine_inch_nerd 15 november 2022 12:26

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Dus, een stap van een soort fusie. Het OTC aandeel zal dus verdwijnen en nieuw aandeel zal op de amerikaanse markt verschijnen.
Voor mij (ikke weg bij BinckBank/Saxo en DeGiro doet niet aan OTC) misschien weer een instapmoment dan.
Ben wel benieuwd naar de rol van SCHMID Group hierin en voor de toekomst.

kiekes 15 november 2022 22:18

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Ik heb ze allebei verbaasd me wel dat HYSR zomaar even 10 miljoen usd ophoest toch nog steeds een bedrijf in opbouw wat nog niks verkocht heeft
Komen nu gelijk met een zetel in raad van bestuur TECO komen even uit mn hoofd kleine 15 miljoen aandelen bij dus de aandelen verwateren wel wat
Ik zie TECO als noorse speler een degelijke kandidaat in de waterstof zitten in ieder geval al in boten en vrachtwagens

Maar eens zien hoe het loopt in de toekomst,zou toch mooi zijn als ze elkaar aanvullen

nine_inch_nerd 29 november 2022 12:36

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SunHydrogen Receives Additional $45M Capital Commitment, Shares Vision for Investment Strategy Across Larger Green Hydrogen Landscape

SANTA BARBARA, CA – November 29, 2022 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today shared that it has accepted a $45 million investment commitment from GHS Investments, LLC, of Jericho, New York.

The proceeds will be used in part to further the development of SunHydrogen’s nanoparticle-based green hydrogen technology, and in parallel to enable the Company to invest in and co-develop other complementary technologies across the renewable hydrogen value chain.

The Company remains committed to developing its nanoparticle technology to commercialization, with its most immediate internal goal being the successful demonstration of a first-ever, production-quality prototype.

However, with the addition of the $45M capital commitment, SunHydrogen also looks to realize its goal of furthering renewable hydrogen technology to grow the hydrogen ecosystem. Specifically, SunHydrogen seeks to make strategic investments by partnering with other early-stage companies to enable and assist them in reaching their own manufacturing stages.

This vision is evidenced by SunHydrogen’s recent $10M strategic investment in Norway-based TECO 2030, the developer of zero-emission technology for the maritime and heavy industry sectors.

“This investment commitment from GHS ushers in a new era of SunHydrogen as a technology company for the green hydrogen economy,” said SunHydrogen’s CEO Tim Young.

“Our mission to develop, acquire and partner with other critical technologies brings significant value to our investor base,” Mr. Young continued. “Our cooperation with TECO 2030 is a prime example of this.”

For further information regarding the terms and conditions of GHS’s investment commitment, see the Company’s 8-K filed with the Securities and Exchange Commission on November 22, 2022.

About SunHydrogen, Inc.
SunHydrogen is developing breakthrough technologies to make, store and use green hydrogen in a market that Goldman Sachs estimates to be worth $12 trillion by 2050. Our patented SunHydrogen Panel technology, currently in development, uses sunlight and any source of water to produce low-cost green hydrogen. Similar to solar panels that produce electricity, our SunHydrogen Panels will produce green hydrogen. Our vision is to become a major technology supplier in the new hydrogen economy. By developing, acquiring and partnering with other critical technologies, we intend to enable a future of emission-free vehicles, ships, data centers, aircrafts and more. To learn more about SunHydrogen, please visit our website at www.SunHydrogen.com.

Safe Harbor Statement
Matters discussed in this press release contain forward-looking statements. When used in this press release, the words "anticipate," "believe," "estimate," "may," "intend," "expect" and similar expressions identify such forward-looking statements. Actual results, performance or achievements could differ materially from those contemplated, expressed or implied by the forward-looking statements contained herein, and there is no guarantee that we will attain the aforementioned anticipated developmental milestones, or that we will realize a return on our investment in TECO 2030. These forward-looking statements are based largely on the expectations of the Company and are subject to a number of risks and uncertainties and other factors, known and unknown, including the risk factors described from time to time in the Company's reports filed with the Securities and Exchange Commission. The forward-looking statements contained herein are applicable only as of the date on which they are made, and the Company does not assume any obligation to update any forward-looking statements, except as may be required under applicable law.

Belegopjeboterham 1 december 2022 22:45

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Gaat mooi de laatste week.

nine_inch_nerd 6 december 2022 12:53

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SunHydrogen CEO Tim Young Joins TECO 2030 Board of Directors
SANTA BARBARA, CA – December 6, 2022 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today shared that its CEO Tim Young has been elected to serve on TECO 2030 ASA’s Board of Directors.

In November 2022, SunHydrogen announced a $10M strategic investment in Norway-based TECO 2030, the developer of zero-emission technology for the maritime and heavy industry sectors.

As a member of TECO 2030’s Board of Directors, Mr. Young will work closely with TECO 2030’s Group CEO Tore Enger to lead strategic decision-making in areas such as capital markets, investors and clients, and further product development.

“I am very much looking forward to working with Mr. Young as a board member,” said TECO 2030’s Group CEO Tore Enger. “He possesses a deep understanding of U.S. capital markets and investors, and he has an excellent understanding of the U.S. hydrogen value chain and industry. Together we will be able to serve our clients and partners with purpose-developed heavy-duty and marine PEM fuel cells,” Mr. Enger concluded.

TECO 2030 is currently developing and building Europe’s first gigafactory of hydrogen PEM fuel cell stacks for medium to heavy-duty trucks and PEM fuel cell modules for maritime applications.

“My recent attendance at the International WorkBoat Show with TECO 2030 has only reinforced my belief in the tremendous market opportunity that exists in the marine and heavy industry sectors,” said SunHydrogen’s CEO Tim Young.

“Port emissions from diesel-powered vessels and vehicles have soared in the past several years. California’s Port of Los Angeles is just one example of a global problem,” Mr. Young continued. “In 2021, diesel particulate matter rose 56% and greenhouse gas emissions rose 39% compared with 2020 levels at the Port of Los Angeles, according to the Los Angeles Times. TECO 2030 is in a prime position to address problems like these, and I believe they are poised to become one of the top companies in this market.”

nine_inch_nerd 15 december 2022 12:29

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SANTA BARBARA, CA – December 15, 2022 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today provided a Q4 update on the Company's progress toward multiple planned 2022 milestones and released a new video showcasing the first-ever prototype of its nanoparticle-based green hydrogen technology. The video can be viewed on SunHydrogen’s website here:
www.sunhydrogen.com/?ss_source=sscamp...

At the start of 2022, SunHydrogen outlined four milestones for the development and demonstration of a production-quality prototype of its nanoparticle-based green hydrogen technology by the end of Q4 2022. These included:

-Successful fabrication of semiconductor units at production-quality prototype scales
-Successful integration of membranes at production-quality prototype scales
-Successful integration of catalysts at production-quality prototype scales
-Successful testing and demonstration of production-quality prototype units
-Today the Company is pleased to share a summary of its Q4 progress in each of these areas.

Semiconductor units
SunHydrogen's nanoparticle technology utilizes a pairing of two semiconductor units to maximize sunlight absorption and hydrogen production efficiency. In Q2 and Q3 of 2022, the Company shared its success in fabricating one of the two proprietary nanoparticle-based semiconductor units at production-quality prototype scales. SunHydrogen also successfully demonstrated hydrogen production by pairing one of its two nanoparticle-based semiconductor units with silicon heterojunction solar cells and thin-film perovskite solar cells. However, the fabrication of the second proprietary semiconductor unit was delayed due to supply chain challenges.

In Q4 2022, SunHydrogen's Iowa scientific team at the SunHydrogen Lab and the University of Iowa identified additional alternate solutions to pair its proprietary nanoparticle-based semiconductor units at production-quality prototype scales. The pairing of these units generated photovoltages over 1.8 V, sufficiently exceeding the voltages required for water splitting. In addition, SunHydrogen's Iowa scientific team increased the photocurrent density of one of its nanoparticle-based semiconductor units by 58%. Photocurrent density is a crucial metric that is directly proportional to the rate of hydrogen production.

In parallel, SunHydrogen continues to pursue the development of vendor-independent novel deposition chemistries for growing its nanoparticle-based semiconductor units.

SunHydrogen has also entered into a Technical Service Agreement with Alliance for Sustainable Energy, LLC, manager and operating contractor of the National Renewable Energy Laboratory (NREL), to integrate its cells in SunHydrogen's model for solar water splitting. All approaches will continue to be evaluated at prototype-relevant scales.

Membrane integration
In Q3 of 2022, SunHydrogen completed its initial study on membrane integration with industrial partners Chromis Technologies and Ionomr Innovations.

During Q4 2022, the Singh Lab at the University of Michigan, led by Dr. Nirala Singh, one of the lead inventors on SunHydrogen's patent for Photoelectrosynthetically Active Heterostructures, studied the efficacy of the membrane integration process for both anion exchange membranes and cation exchange membranes. All the membranes prevented bulk liquid crossover, indicating the mechanical stability of the materials. The Singh Lab also measured the stability of the membranes in sulfuric acid and found the membranes to be stable. However, the areal resistances of the substrates after membrane integration were too high. Future work will consist of coating the new, higher-porosity substrates with membranes to decrease membrane thickness and, subsequently, membrane resistance.

Catalyst integration
The hydrogen evolution catalysts that were developed in Q3 2022 match the best-performing commercial catalysts and can be deposited on the Company's solar cell materials with low thickness to mitigate parasitic light absorption.

In Q4 2022, the Singh Lab focused on the oxygen evolution reaction (OER) electrocatalyst. The OER electrocatalyst maintained an overvoltage of <400 mV for six hours, with an initial overvoltage of 330 mV at current densities relevant for large-scale photoelectrochemical hydrogen production. Scaling up the total OER electrocatalyst area by a factor of 10 did not cause a decrease in activity. Future work will develop higher surface area electrocatalysts to lower the required current density per electrochemical surface area, which will further decrease the overvoltage and increase materials' stability.

Testing and demonstration of production-quality prototype unit
In Q3 2022, SunHydrogen designed and constructed a physical, working model of a small-scale prototype unit. This initial production-quality prototype was designed to house one hydrogen generator – integrated with catalysts, membranes, and light absorber – and to safely produce high-purity green hydrogen.

SunHydrogen's nanoparticle technology directly uses the electrical charges created by sunlight to generate hydrogen when the sun is shining. However, this prototype was also designed to be able to power the catalyst and membrane integration assembly when the sun is not shining using renewable grid electricity from wind or hydropower sources.

In Q4 2022, SunHydrogen successfully demonstrated solar hydrogen production using this prototype. Additionally, the Company is proud to share a new video featuring the prototype at work at SunHydrogen's Iowa laboratory.

"We are happy to end the quarter with testing and demonstration of this first-ever, production-quality prototype of our nanoparticle-based green hydrogen technology," said SunHydrogen's Chief Scientific Officer Dr. Syed Mubeen. "With this initial model complete, we now intend to focus on larger-scale panels that house multiple arrays of hydrogen generators to maximize hydrogen efficiency and production rates."

"We thank our shareholders and followers for the ongoing support, and we greatly look forward to continuing to share our progress with you in the new year," Dr. Mubeen concluded.

SunHydrogen's new video can be viewed by visiting the Company's website at www.SunHydrogen.com.

nine_inch_nerd 15 december 2022 12:35

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Mooi uitgelegd via de video (zie ook boven):
youtu.be/dkIDRZH273A

nine_inch_nerd 7 februari 2023 12:09

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SunHydrogen Unveils Larger Version of the World’s First-Ever Nanoparticle-Based Green Hydrogen Generator
The system is designed to be economical at mass manufacturing scale
www.sunhydrogen.com/news-posts/sunhyd...

SANTA BARBARA, CA – February 7, 2023 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today published a photo of the largest version to date of its nanoparticle-based green hydrogen technology.

The image unveiled today shows a panel that houses multiple hydrogen generators and contains 16 times more hydrogen generator area than the Company’s previous small-scale model. Multiple arrays of hydrogen generators bolster hydrogen production rates.

“This larger-scale panel moves us one step closer to producing commercial-scale hydrogen panels,” said SunHydrogen’s Chief Scientific Officer Dr. Syed Mubeen, pictured here.
This prototype is currently the only self-contained nanoparticle-based hydrogen generation device of its kind that splits water molecules into high-purity green hydrogen and oxygen using the sun’s energy.

SunHydrogen’s nanoparticle technology directly uses the electrical charges created by sunlight to generate hydrogen when the sun is shining. However, this prototype was also designed to support 24-hour operation even when the sun is not shining by powering the catalyst and membrane integration assembly with renewable grid electricity from wind or hydropower sources.

The Company’s previous small-scale model, publicized in December 2022, was designed to fit a single nanoparticle-based hydrogen generator for testing in a controlled environment.

“This larger-scale panel moves us one step closer to producing commercial-scale hydrogen panels,” said SunHydrogen’s Chief Scientific Officer Dr. Syed Mubeen.

“Just like a solar panel is comprised of multiple cells, our hydrogen panel encases multiple hydrogen generators, as pictured. However, because we are growing our own nanoparticle semiconductor units using low-cost, abundant materials, we are not reliant on expensive solar cell materials and architecture. We believe that when our efficiency goals are met, this will prove to be one of – if not the most – economical green hydrogen solutions,” Dr. Mubeen concluded.

SunHydrogen’s Iowa scientific team is currently working to increase the hydrogen production rate per panel by increasing the hydrogen generator area to panel area ratio, as well as overall panel size. The Company is also working to improve overall solar-to-hydrogen efficiency through its agreement with the National Renewable Energy Laboratory (NREL), as well as with its industrial partner InRedox and the Singh Lab at the University of Michigan. In parallel, the Company is working to improve the overall stability of the hydrogen generators.

“I am extremely proud of our team and our industrial partners for meeting another milestone in the path to scaling up our technology, and I am grateful for our shareholders’ patience and support as we work to improve efficiency, overcome challenges, and bring our vision to fruition,” said SunHydrogen’s CEO Tim Young.

Note: A hydrogen generator refers to the entire unit structure composed of substrate, protective layer, photovoltaic layers, and oxidation/reduction catalyst, in which billions of nanoparticles split apart water at the molecular level. A hydrogen panel houses multiple arrays of such hydrogen generators. Future communications will continue to clarify this distinction between hydrogen generator and hydrogen panel.

Radikal 7 februari 2023 13:01

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Dit is echt big news ;-)

nine_inch_nerd 20 maart 2023 11:06

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SunHydrogen’s CEO Tim Young Shares Progress Update on Company's Nanoparticle-Based Green Hydrogen Technology and Investment in TECO 2030 ASA
Mar 20

www.sunhydrogen.com/news-posts/sunhyd...

SANTA BARBARA, CA – March 20, 2023 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today shared an update to its shareholders from its Chief Executive Officer, Tim Young, as follows.

Our Technology
In February 2023, SunHydrogen unveiled the largest version to-date of our nanoparticle-based green hydrogen technology, which splits water molecules into high-purity green hydrogen and oxygen using the sun's energy.

This 1.5 sq. ft. panel houses 16 hydrogen generators and integrates light absorbers, catalysts, membranes, gas collection, and liquid delivery all in one unit.

Our SunHydrogen panel is currently the only self-contained nanoparticle-based hydrogen generation device of its kind that utilizes the sun’s energy to split water molecules into high-purity green hydrogen and oxygen. Our scalable system design, use of low-cost, abundant materials, and ability to utilize water of varying purities are all attributes that set us apart from conventional electrolyzer solutions. Our team's diligent work to scale our panel design is a testament to our unwavering commitment to providing a truly unique solution that has the potential to revolutionize the green hydrogen landscape and make green hydrogen production highly cost-competitive with brown hydrogen.

Our team's efforts are currently focused on increasing the panel's hydrogen production rates and durability while decreasing the cost per kilogram of hydrogen produced. We are pursuing these goals through a series of improvements to our hydrogen panel's design and internal components, and our commitment to these efforts is driven by our overarching goal of delivering the most affordable green hydrogen solution.

First, we are increasing the hydrogen generator area to panel area ratio by over 50% compared to the current design. This upgrade will result in a substantial increase in the amount of solar energy absorbed and converted into hydrogen gas.

Our scientific team is also working closely with the National Renewable Energy Laboratory (NREL) and the University of Iowa to integrate existing state-of-the-art, low-cost semiconductors into our nanoparticle-based system to substantially improve the overall power conversion efficiency of our hydrogen panels.

Additionally, we are working with our industrial partners Corning Laser Technologies GmbH and Geomatec to reduce voltage loss between the anode and cathode catalysts, also resulting in improved power conversion efficiency.

Lastly, our team is working closely with the Singh Lab at the University of Michigan to optimize our catalyst and membrane integration techniques. This will increase the lifetime of our catalyst, decreasing the overall hydrogen production cost.

These improvements are currently being implemented and tested in our 1.5 sq. ft. panel, upon which the design will then be translated into a 1 m² panel. These advancements have also been designed specifically to increase the lifespan and stability of the panel, reducing the need for maintenance and replacement and making it even more cost-effective for future customers to adopt green hydrogen.

TECO 2030

As part of our commitment to furthering the global hydrogen ecosystem, in November 2022 we announced a $10M strategic investment in Norway-based TECO 2030 ASA (OTCQX: TECFF, Oslo Stock Exchange: TECO), the developer of zero-emission technology for the heavy industry and maritime sectors. TECO 2030 is currently developing and building Europe's first gigafactory of hydrogen PEM fuel cell stacks for maritime applications and medium to heavy-duty trucks.

This investment holds unique significance because of the synergy between SunHydrogen and TECO 2030, as well as TECO 2030's key relationships with world-leading companies in the fuel cell industry – TECO 2030's longtime development partner AVL is the world's largest independent company for the development, simulation and testing of powertrain systems.

With extensive experience developing engines for passenger cars, commercial and construction vehicles, heavy machinery and maritime vessels, AVL has completed over 300 fuel cell projects and owns four times more fuel cell patents than all industry competitors combined. TECO 2030 is also partnered with thyssenkrupp Automation Engineering, which boasts over 100 years of fuel cell experience and €34 billion in revenue in 2021.

Fuel cell applications will make up a significant portion of the green hydrogen economy, and we believe heavy duty long-haul trucking and maritime shipping are excellent use cases for hydrogen over battery power.

Hydrogen-powered trucks and hydrogen refueling stations present a variety of cost, scalability, and sustainability-related benefits over battery power, a 2022 McKinsey & Company report states. Namely, hydrogen-fueled trucks can refuel faster and carry a lower weight penalty than battery-powered trucks because tanks weigh considerably less than batteries. And at scale, the infrastructure is less costly to create than e-truck charging infrastructure because it does not require grid upgrades and has a smaller carbon footprint, McKinsey confirms. Faster refueling speed also means the hydrogen infrastructure can be used by many more trucks.

Every day in the US, hundreds of thousands of diesel trucks travel through routes with abundant land and sun. Envision SunHydrogen panels along and around these highways, producing green hydrogen at and near refueling sites: Our technology would eliminate the need to transport hydrogen fuel over long distances, lowering the high costs and hydrogen losses that would otherwise happen in long-distance transport.

While fuel cell technology is maturing ahead of economical green hydrogen production technologies, we are confident that fuel cell applications are a perfect fit for our solution. I believe it greatly benefits our Company and our shareholders to participate in the current fuel cell boom with TECO 2030 and AVL. And in the future, I believe our green hydrogen panels along major trucking routes worldwide, together with the proliferation of TECO 2030's hydrogen fuel cell technology, can make a significant mark on the industry.

Amid a time of widespread financial sector volatility with many innovators in the renewable space struggling for capital, we are fortunate to have the resources to both fully support the development of our own technology and further our goal of maximizing our impact in the hydrogen industry through strategic investment.

To our shareholders, we thank you very much for your continued patience and support and we look forward to sharing our progress with you as we press forward to scale our technology.

nine_inch_nerd 18 april 2023 12:06

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Niet hot, zou ik zeggen.

SunHydrogen Achieves Key Photovoltage Milestone in Its Path to Delivering the Market’s Most Affordable Green Hydrogen Solution
SANTA BARBARA, CA – April 18, 2023 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced it has achieved a key photovoltage milestone that it believes will position the Company’s technology as one of the most cost-effective green hydrogen production methods available.

The SunHydrogen panel is currently the only self-contained nanoparticle-based hydrogen generation device of its kind that utilizes the sun’s energy to split water molecules into high-purity green hydrogen and oxygen. Since the unveiling of SunHydrogen’s largest prototype model to-date, the Company continues to make significant strides in the development of its nanoparticle-based semiconductor units.

SunHydrogen’s single-junction semiconductor units can now generate an open circuit photovoltage of over 0.9 volts, and when combined as two junctions, they can reliably generate over 1.8 volts. Additionally, with a single junction, they have attained photocurrent densities as high as 13.2 milliamps per square centimeter per substrate. The above results have been achieved at a scale of 25 cm² per substrate, the same scale as the substrates used in the Company’s most recent 1.5 sq. ft. prototype panel.

“Our recent accomplishments are highly significant as they confirm that we have consistently reached the required operating voltages necessary to run hydrogen generators solely using the sun’s energy,” said SunHydrogen’s Chief Scientific Officer, Dr. Syed Mubeen. “This progress brings us closer to achieving commercially viable solar-to-hydrogen efficiency targets. However, to attain this goal, we would require a second junction unit capable of producing photocurrent densities similar to or higher than our first junction, which we are currently working toward.”

Achieving photovoltages over 1.5 volts using inexpensive semiconductors is a feat that has long eluded the industry. While commercially available high-voltage tandem solar cells are expensive and require very high solar concentration systems, SunHydrogen’s approach uses only inexpensive semiconducting material and does not require high solar concentrators, substantially reducing manufacturing and operational complexity and cost.

“Our recent success is further confirmation that we are on the right track toward achieving our overarching goal of delivering the most affordable green hydrogen solution,” said SunHydrogen’s CEO Tim Young. “Our team is currently pursuing multiple approaches to further bolster our operational photocurrent densities, maximizing solar-to-hydrogen efficiency and moving us one step closer to bringing our vision to fruition.”

About SunHydrogen, Inc.
SunHydrogen is developing breakthrough technologies to make, store and use green hydrogen in a market that Goldman Sachs estimates to be worth $12 trillion by 2050. Our patented SunHydrogen Panel technology, currently in development, uses sunlight and any source of water to produce low-cost green hydrogen. Similar to solar panels that produce electricity, our SunHydrogen Panels will produce green hydrogen. Our vision is to become a major technology supplier in the new hydrogen economy. By developing, acquiring and partnering with other critical technologies, we intend to enable a future of emission-free vehicles, ships, data centers, aircrafts and more. To learn more about SunHydrogen, please visit our website at www.SunHydrogen.com.

Safe Harbor Statement
Matters discussed in this press release may contain forward-looking statements. When used in this press release, the words "anticipate," "believe," "estimate," "may," "intend," "expect" and similar expressions identify such forward-looking statements. Actual results, performance or achievements could differ materially from those contemplated, expressed or implied by the forward-looking statements contained herein. Forward-looking statements are based largely on the expectations of the Company and are subject to a number of risks and uncertainties and other factors, known and unknown, including the risk factors described from time to time in the Company's reports filed with the Securities and Exchange Commission. Forward-looking statements contained herein are applicable only as of the date on which they are made, and the Company does not assume any obligation to update any forward-looking statements, except as may be required under applicable law.

nine_inch_nerd 2 mei 2023 12:06

1

Weer beweging...
Maar nog geen zekerheden.
Het is nog niet zeker of MCH2 subsidie krijgt....

SunHydrogen Joins Forces with Iowa, Nebraska and Missouri in Mid-Continent Clean Hydrogen Hub Proposal to Usher In a Clean Hydrogen Future

SANTA BARBARA, CA – May 2, 2023 – SunHydrogen, Inc. (OTC: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced its commitment to the Mid-Continent Clean Hydrogen Hub (MCH2) jointly formed by the states of Iowa, Nebraska and Missouri.

The U.S. Department of Energy (DOE) recently announced the selection of 33 public-private teams – picked from a larger list of 79 contenders – as the strongest candidates in the competition for up to $7 billion in federal funding through the Regional Clean Hydrogen Hubs program. MCH2 was among this shortlist of selected teams.

SunHydrogen will be supporting MCH2’s application for the Regional Clean Hydrogen Hubs grant as the Company has been deemed vital to MCH2. Specifically, SunHydrogen has been designated as having peripheral activities that contribute to the success of MCH2 and impact the overall emissions or economics of the proposed hub.

Funded through the 2021 Infrastructure Investment and Jobs Act, the Regional Clean Hydrogen Hubs program is designed to create networks of hydrogen producers, consumers and local connective infrastructure to accelerate the use of hydrogen as a clean energy carrier that can deliver or store tremendous amounts of energy, the DOE states. The Regional Clean Hydrogen Hubs program is also part of the DOE’s larger Hydrogen Shot initiative, which seeks to reduce the cost of clean hydrogen by 80% to $1 per 1 kilogram in 1 decade.

By leveraging its expertise in solar hydrogen production technologies, SunHydrogen believes it can make a significant contribution to the success of the Mid-Continent Hydrogen Hub.

If MCH2 is funded, SunHydrogen is committed to working closely with key stakeholders in the Mid-Continent region including industry leaders, academic institutions and government agencies to create a regional hydrogen ecosystem that will promote the production, storage and distribution of clean hydrogen. With strong connections to Iowa, SunHydrogen looks forward to working with the Iowa Economic Development Authority, one of the key partners of MCH2.

"We believe this initiative has tremendous potential to drive the adoption of renewable hydrogen across a range of industries including transportation, energy and manufacturing,” said SunHydrogen’s CEO Tim Young. “By working together, we can create a more sustainable and prosperous future for all."

About SunHydrogen, Inc.
SunHydrogen is developing breakthrough technologies to make, store and use green hydrogen in a market that Goldman Sachs estimates to be worth $12 trillion by 2050. Our patented SunHydrogen Panel technology, currently in development, uses sunlight and any source of water to produce low-cost green hydrogen. Similar to solar panels that produce electricity, our SunHydrogen Panels will produce green hydrogen. Our vision is to become a major technology supplier in the new hydrogen economy. By developing, acquiring and partnering with other critical technologies, we intend to enable a future of emission-free vehicles, ships, data centers, aircrafts and more. To learn more about SunHydrogen, please visit our website at www.SunHydrogen.com.

Safe Harbor Statement
Matters discussed in this press release may contain forward-looking statements. When used in this press release, the words "anticipate," "believe," "estimate," "may," "intend," "expect" and similar expressions identify such forward-looking statements. Actual results, performance or achievements could differ materially from those contemplated, expressed or implied by the forward-looking statements contained herein. Forward-looking statements are based largely on the expectations of the Company and are subject to a number of risks and uncertainties and other factors, known and unknown, including the risk factors described from time to time in the Company's reports filed with the Securities and Exchange Commission. Forward-looking statements contained herein are applicable only as of the date on which they are made, and the Company does not assume any obligation to update any forward-looking statements, except as may be required under applicable law.

Radikal 2 mei 2023 13:43

1

Fingers crossed dus.
Hopelijk snel duidelijkheid, maar toch een stap in goede richting.

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