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New Hydrogen CEO Steve Hill and Dartmouth Energy Expert Discuss Scalable Nanomanufacturing and 2D Materials for Energy Applications

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NewHydrogen, Inc. (OTCMKTS:NEWH), developer of ThermoLoop™ technology, hosted a podcast featuring CEO Steve Hill and Dr. William Scheideler, Associate Professor at Dartmouth College's Thayer School of Engineering. The discussion focused on scalable nanomanufacturing and 3D materials for energy applications, with emphasis on Perovskite solar cells and green hydrogen generation through electrocatalysis.

Dr. Scheideler's research group is developing earth-abundant materials for electrocatalysis to replace expensive platinum and iridium oxide catalysts in water electrolysis. He highlighted the potential of Perovskite solar cells as ultra-thin, lightweight, and cost-effective alternatives. The podcast also explored hydrogen as a promising solution for storing intermittent renewable energy, offering advantages over battery storage and pumped hydro systems.

The discussion touched on the U.S. Department of Energy's target of $1/kg for hydrogen production cost, with Dr. Scheideler emphasizing the importance of using commercially viable materials and creating ordered structures to increase efficiency in hydrogen production.

NewHydrogen, Inc. (OTCMKTS:NEWH), sviluppatore della tecnologia ThermoLoop™, ha ospitato un podcast con il CEO Steve Hill e il Dr. William Scheideler, Professore Associato alla Thayer School of Engineering del Dartmouth College. La discussione si è concentrata su nanofabbricazione scalabile e materiali 3D per applicazioni energetiche, con particolare attenzione ai dispositivi solari in perovskite e alla generazione di idrogeno verde tramite elettrocatalisi.

Il gruppo di ricerca del Dr. Scheideler sta sviluppando materiali abbondanti sulla Terra per l'elettrocatalisi da utilizzare al posto dei costosi catalizzatori a base di platino e ossido di iridio nell'elettrolisi dell'acqua. Ha evidenziato le potenzialità delle celle solari in perovskite come alternative ultra-sottili, leggere ed economiche. Il podcast ha anche esplorato l'idrogeno come soluzione promettente per lo stoccaggio di energia rinnovabile intermittente, offrendo vantaggi rispetto allo stoccaggio in batterie e ai sistemi di pompaggio idrico.

La discussione ha toccato l'obiettivo del Dipartimento dell'Energia degli Stati Uniti di $1/kg per il costo di produzione dell'idrogeno, con il Dr. Scheideler che ha sottolineato l'importanza di utilizzare materiali commercialmente validi e di creare strutture ordinate per aumentare l'efficienza nella produzione di idrogeno.

NewHydrogen, Inc. (OTCMKTS:NEWH), desarrollador de la tecnología ThermoLoop™, organizó un podcast con el CEO Steve Hill y el Dr. William Scheideler, Profesor Asociado en la Thayer School of Engineering del Dartmouth College. La discusión se centró en nanofabricación escalable y materiales 3D para aplicaciones energéticas, haciendo hincapié en celdas solares de perovskita y generación de hidrógeno verde a través de la electrocatalisis.

El grupo de investigación del Dr. Scheideler está desarrollando materiales abundantes en la Tierra para la electrocatalisis que reemplacen los costosos catalizadores de platino y óxido de iridio en la electrólisis del agua. Destacó el potencial de las celdas solares de perovskita como alternativas ultradelgadas, livianas y rentables. El podcast también exploró el hidrógeno como una solución prometedora para el almacenamiento de energía renovable intermitente, ofreciendo ventajas sobre el almacenamiento en baterías y los sistemas hidroeléctricos por bombeo.

La discusión tocó el objetivo del Departamento de Energía de los EE. UU. de $1/kg para el costo de producción de hidrógeno, con el Dr. Scheideler enfatizando la importancia de usar materiales comercialmente viables y crear estructuras ordenadas para aumentar la eficiencia en la producción de hidrógeno.

뉴하이드로젠(NYSE:NEWH), ThermoLoop™ 기술 개발업체가 CEO 스티브 힐(Steve Hill)과 다트머스대 공학대학원 조교수인 윌리엄 샤이델러(William Scheideler) 박사를 초대하여 팟캐스트를 진행했습니다. 논의는 전사 가능한 나노 제조 및 에너지 애플리케이션용 3D 소재에 초점을 맞추었으며, 페로브스카이트 태양전지 및 전기 촉매 작용을 통한 녹색 수소 생성에 중점을 두었습니다.

샤이델러 박사의 연구 그룹은 물 전기 분해에서 고가의 백금 및 이리듐 산화물 촉매를 대체하기 위한 지구에 풍부한 소재를 개발하고 있습니다. 그는 페로브스카이트 태양전지가 초박형, 경량 및 경제적인 대안으로서의 잠재력을 강조했습니다. 팟캐스트는 또한 간헐적인 재생 에너지 저장을 위한 유망한 솔루션으로서의 수소를 탐구하며, 배터리 저장 및 펌프 수력 시스템에 비해 장점을 제공합니다.

논의는 미국 에너지부의 수소 생산 비용 목표인 $1/kg에 대해 언급되었으며, 샤이델러 박사는 수소 생산의 효율성을 높이기 위해 상업적으로 사용 가능한 소재를 사용하고 정돈된 구조를 만드는 것의 중요성을 강조했습니다.

NewHydrogen, Inc. (OTCMKTS:NEWH), développeur de la technologie ThermoLoop™, a animé un podcast en compagnie du PDG Steve Hill et du Dr. William Scheideler, Professeur Associé à l'école d'ingénierie Thayer du Dartmouth College. La discussion s'est concentrée sur la nanofabrication évolutive et les matériaux 3D pour les applications énergétiques, en mettant l'accent sur les cellules solaires en pérovskite et la génération d'hydrogène vert à travers l'électrocatalyse.

Le groupe de recherche du Dr. Scheideler développe des matériaux abondants sur Terre pour l'électrocatalyse afin de remplacer les coûteux catalyseurs en platine et en oxyde d'iridium dans l'électrolyse de l'eau. Il a souligné le potentiel des cellules solaires en pérovskite comme alternatives ultrafines, légères et rentables. Le podcast a également exploré l'hydrogène en tant que solution prometteuse pour le stockage d'énergie renouvelable intermittente, offrant des avantages par rapport au stockage sur batteries et aux systèmes de pompage hydraulique.

La discussion a abordé l'objectif du Département de l'énergie des États-Unis de réduire le coût de production de l'hydrogène à 1 $/kg, le Dr. Scheideler soulignant l'importance d'utiliser des matériaux commercialement viables et de créer des structures ordonnées pour accroître l'efficacité de la production d'hydrogène.

NewHydrogen, Inc. (OTCMKTS:NEWH), Entwickler der ThermoLoop™-Technologie, veranstaltete einen Podcast mit CEO Steve Hill und Dr. William Scheideler, außerordentlichem Professor an der Thayer School of Engineering des Dartmouth College. Die Diskussion konzentrierte sich auf skalierbare Nanoproduktion und 3D-Materialien für Energieanwendungen und legte besonderen Fokus auf Perowskit-Solarzellen und die Erzeugung von grünem Wasserstoff durch Elektrokatalyse.

Die Forschungsgruppe von Dr. Scheideler entwickelt erdreichhaltige Materialien für die Elektrokatalyse, um die teuren Katalysatoren aus Platin und Iridiumoxid bei der Wasserelektrolyse zu ersetzen. Er hob das Potenzial von Perowskit-Solarzellen als ultradünne, leichte und kosteneffiziente Alternativen hervor. Der Podcast beleuchtete auch Wasserstoff als vielversprechende Lösung zur Speicherung intermittierender erneuerbarer Energie und bietet Vorteile gegenüber Batteriespeicher und Pumpspeicherkraftwerken.

In der Diskussion wurde das Ziel des US-Energieministeriums von $1/kg für die Wasserstoffproduktionskosten angesprochen, wobei Dr. Scheideler die Bedeutung unterstrich, kommerziell tragfähige Materialien zu verwenden und geordnete Strukturen zu schaffen, um die Effizienz der Wasserstoffproduktion zu erhöhen.

Positive
  • Development of ThermoLoop™ technology for cheap green hydrogen production
  • Research on earth-abundant materials for electrocatalysis to replace expensive catalysts
  • Potential for low-cost, high-efficiency Perovskite solar cells
  • Exploration of hydrogen as a promising renewable energy storage solution
Negative
  • None.

Dr. William Scheideler elaborates on Perovskite solar cells and green hydrogen generation through electrocatalysts

SANTA CLARITA, Calif., Sept. 24, 2024 (GLOBE NEWSWIRE) -- NewHydrogen, Inc. (OTCMKTS:NEWH), the developer of ThermoLoop, a breakthrough technology that uses water and heat rather than electricity to produce the world’s cheapest green hydrogen, today announced a podcast featuring CEO Steve Hill and Dr. William Scheideler, Associate Professor at Dartmouth College’s Thayer School of Engineering, on scalable nanomanufacturing and 3D materials for energy applications, Perovskite solar cells, green hydrogen generation through electrocatalysis, and hydrogen energy storage.

Dr. Scheideler briefly introduced the work being done at his research group. Perovskite solar cells are a new breed of ultra-thin, lightweight solar cells that can be manufactured using printing techniques, offering the potential for low cost and high efficiency. His research group is developing earth-abundant materials for electrocatalysis, aiming to replace expensive platinum and iridium oxide catalysts used in water electrolysis. Dr. Scheideler said, “We are somewhere in between the basic science and the applied sciences, and in terms of energy, we work on two major renewable energy topics: Perovskite solar cells and the generation of green hydrogen through electrocatalysis and water splitting.”

Hydrogen is presented as a promising solution for storing intermittent renewable energy, offering an alternative to battery storage and pumped hydro systems. Regarding hydrogen production cost of $1/kg, an aggressive target set by the United States Department of Energy, Dr. Scheideler said, “We should use earth abundant materials that may be little bit less active, but can be much more commercially viable. Our approach is to create an ordered structure so that the hydrogen and oxygen bubbles can work their way through in a systematic way rather than a random way thus increase the efficiency.”

As for the storage of energy, Dr. Scheideler said, “Batteries are still too expensive to really compete at scale. Hydrogen is a better approach especially if you have times of the day where you have excess energy generation from renewable energy including wind and solar.”

Dr. William Scheideler graduated with BSE degrees in electrical engineering and biomedical engineering from Duke University, and a PhD in electrical engineering from UC Berkeley. He then worked as a postdoctoral scholar in the Department of Materials Science & Engineering at Stanford University. His research focuses on developing new materials and nanomanufacturing methods for high-performance printed and flexible devices, including low-power sensors and energy harvesting for hybrid electronics. 

Dr. Scheideler is listed as Google Scholar at https://scholar.google.com/citations?user=OvFn77MAAAAJ.

Watch the full discussion on the NewHydrogen Podcast featuring Dr. William Scheideler at Professor William Scheideler Dartmouth College | Newhydrogen.

For more information about NewHydrogen, please visit https://newhydrogen.com/.

About NewHydrogen, Inc.

NewHydrogen is developing ThermoLoop – a breakthrough technology that uses water and heat rather than electricity to produce the world’s lowest cost green hydrogen. Hydrogen is the cleanest and most abundant element in the universe, and we can’t live without it. Hydrogen is the key ingredient in making fertilizers needed to grow food for the world. It is also used for transportation, refining oil and making steel, glass, pharmaceuticals and more. Nearly all the hydrogen today is made from hydrocarbons like coal, oil, and natural gas, which are dirty and limited resources. Water, on the other hand, is an infinite and renewable worldwide resource.

Currently, the most common method of making green hydrogen is to split water into oxygen and hydrogen with an electrolyzer using green electricity produced from solar or wind. However, green electricity is and always will be very expensive. It currently accounts for 73% of the cost of green hydrogen. By using heat directly, we can skip the expensive process of making electricity, and fundamentally lower the cost of green hydrogen. Inexpensive heat can be obtained from concentrated solar, geothermal, nuclear reactors and industrial waste heat for use in our novel low-cost thermochemical water splitting process. Working with a world class research team at UC Santa Barbara, our goal is to help usher in the green hydrogen economy that Goldman Sachs estimated to have a future market value of $12 trillion.

Safe Harbor Statement

Matters discussed in this press release contain forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. 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. These forward-looking statements are based largely on the expectations of the Company and are subject to a number of risks and uncertainties. These include, but are not limited to, risks and uncertainties associated with: the impact of economic, competitive and other factors affecting the Company and its operations, markets, the impact on the national and local economies resulting from terrorist actions, the impact of public health epidemics on the global economy and other factors detailed in reports filed by the Company with the United States Securities and Exchange Commission.

Any forward-looking statement made by us in this press release is based only on information currently available to us and speaks only as of the date on which it is made. We undertake no obligation to publicly update any forward-looking statement, whether written or oral, that may be made from time to time, whether as a result of new information, future developments or otherwise.

Investor Relations Contact:

NewHydrogen, Inc.
ir@newhydrogen.com


FAQ

What is NewHydrogen's (NEWH) ThermoLoop™ technology?

ThermoLoop™ is a breakthrough technology developed by NewHydrogen that uses water and heat, rather than electricity, to produce the world's cheapest green hydrogen.

What are the main topics discussed in the NewHydrogen (NEWH) podcast with Dr. William Scheideler?

The podcast covered scalable nanomanufacturing and 3D materials for energy applications, Perovskite solar cells, green hydrogen generation through electrocatalysis, and hydrogen energy storage.

How is Dr. Scheideler's research related to NewHydrogen's (NEWH) goals?

Dr. Scheideler's research on earth-abundant materials for electrocatalysis and Perovskite solar cells aligns with NewHydrogen's focus on developing efficient and cost-effective green hydrogen production technologies.

What is the U.S. Department of Energy's target for hydrogen production cost mentioned in the NewHydrogen (NEWH) podcast?

The U.S. Department of Energy has set an aggressive target of $1/kg for hydrogen production cost.

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