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Lightsource bp and Pinnacle Financial Partners announce $97.9M tax equity deal for Peacock Solar in San Patricio County, TX
Oct 14, 2025

Lightsource bp and Pinnacle Financial Partners announce $97.9M tax equity deal for Peacock Solar in San Patricio County, TX

Lightsource bp and Pinnacle Financial Partners announced the closing of an $97.9 million tax equity deal to finance the 187 MW Peacock Solar in San Patricio County, TX.

This marks the second tax equity transaction between Lightsource bp and Pinnacle, and Pinnacle’s first production tax credit (PTC) equity deal.

To date, Lightsource bp has raised over $5 billion in third-party capital to support USA projects.

“We’re proud to collaborate with Pinnacle Financial Partners on this tax equity deal for Peacock Solar,” said Emilie Wangerman, Lightsource bp Chief Operating Officer and Head of USA. “Our partnership reflects our shared commitment to develop creative, effective capital solutions that support growth and deliver value to all stakeholders. This deal is an important step forward in advancing the renewable energy infrastructure in Texas and across the USA.”

“Pinnacle Financial Partners is delighted to participate as a tax-equity investor in the Peacock Solar project developed by Lightsource bp,” said Frank Conley, head of Pinnacle Financial Partners’ solar capital advisory. “This investment builds upon Pinnacle’s growing relationship with Lightsource bp and reinforces our commitment to supporting clean energy initiatives that benefit local communities, create jobs, and advance a more sustainable future.”

Lightsource bp | https://lightsourcebp.com/us

Pinnacle Financial Partners | www.pnfp.com

Optimum Energy Fuels Expansion, Hires Financial and Project Development Veterans
Oct 14, 2025

Optimum Energy Fuels Expansion, Hires Financial and Project Development Veterans

Optimum Energy announced the strategic addition of two senior executives to its leadership team: Jeffrey Cepler, Sr. Director, Project Development, and German W. Krug, Vice President, Financial Analytics and Modeling.

The appointments immediately strengthen Optimum Energy’s capacity to scale its Energy-as-a-Service (EaaS) platform, ensuring clients achieve financial goals and operational reliability.

“We’ve built a team of top-tier leaders who have collectively managed over $6 billion in energy projects. Jeffrey and German strengthen this foundation, ensuring Optimum continues to deliver measurable results and the next generation of Energy-as-a-Service solutions,” said Lisa Roy, President and Chief Executive Officer of Optimum Energy.

Cepler, with nearly three decades in finance at firms including UBS and Citigroup, is a trusted advisor who has structured complex transactions for investment-grade health systems nationwide. Krug joins Optimum with 20+ years of experience managing risk for structured energy and infrastructure deals, having recently led a modeling team that closed more than $1.5 billion in EaaS projects.

Redefining Energy-as-a-Service

Optimum Energy’s EaaS model sets a new standard for Healthcare, Higher Education, and Advanced Manufacturing facilities that demand more than simple risk transfer or asset monetization. The platform is centered on continuous optimization and measurable outcomes through:

  • Integrated Solutions: Combining design, finance, and operations for peak efficiency.
  • Performance-Driven Technology: Leveraging advanced analytics for continuous system improvement.
  • Client-Centric Flexibility: Structuring agreements around a client’s specific KPIs.

“The combined technical and financial mastery Jeffrey and German bring allows us to immediately elevate our platform, delivering a true Gen2 EaaS solution, meaning greater financial certainty and deeper optimization for our clients,” said Ken Bernhard, Vice President of Project Development at Optimum Energy.

Optimum Energy | www.optimumenergyco.com

DESRI Announces Closing of Preferred Equity Financing for 250 MW Solar Portfolio in Texas
Oct 14, 2025

DESRI Announces Closing of Preferred Equity Financing for 250 MW Solar Portfolio in Texas

DESRI announced the closing of its $129 million preferred equity investment in a 250-megawatt (MWac) utility scale solar development, comprised of two projects, located in West Texas. "DESRI is excited to support the construction of a leading US Independent Power Producer's projects, which will serve new industrial load in the area", said Peter Koczanski, Director at DESRI. "This investment demonstrates DESRI's capabilities as a capital solutions provider for renewable energy assets. DESRI's industry expertise, having successfully constructed over eight gigawatts of projects, enables us to move quickly and use our capabilities to provide added value to the assets in which we invest. Our team is able to reliably deliver desired outcomes for our partners."

King & Spalding LLP advised DESRI on the transaction.

DESRI | https://desri.com/

Lightweight Construction for Efficient Small Wind Turbines: Weak Wind – High Performance
Oct 14, 2025

Lightweight Construction for Efficient Small Wind Turbines: Weak Wind – High Performance

Those who want to generate electricity for their own consumption using wind power need a powerful small wind turbine. Researchers at the Fraunhofer Institute for Applied Polymer Research IAP, in collaboration with the BBF Group, have developed a lightweight rotor that is specifically designed for operation in regions with low wind speeds. The first prototypes have now been delivered. These systems enable private households, businesses, or disaster relief organizations to set up a decentralized energy supply and use renewable energy efficiently.

spin wheel

 

 

Small wind turbine in lightweight design: Optimization of aerodynamics and the manufacturing process enables the wind turbine to achieve up to 450 revolutions per minute and generate an output of 2500 watts

The newly developed wind turbines start moving even in a light breeze. Wind tunnel tests show that the rotor begins to turn at a wind speed of 2.7 meters per second – a key requirement for the efficient use of wind power in regions with low wind conditions. The starting speed for comparable systems is four meters per second.

Weak Wind, High Efficiency

"Our goal is to use the power of the wind as effectively as possible to generate electrical energy," emphasizes Marcello Ambrosio, Head of Simulation and Design in the Polymer Materials and Composite PYCO research division at Fraunhofer IAP. The lightweight construction experts at the Wildau site are taking a holistic approach to the development of the wind turbine: “We have optimized the aerodynamic design and the manufacturing process”, explains Ambrosio.

High-Performance Rotor Blades

The result: the wind turbine achieves up to 450 revolutions per minute. With an output of 2500 watts at a wind speed of 10 meters per second, it is on average 83 percent more powerful than comparable systems on the market. The system achieves an efficiency of 53 percent. "Physically, a maximum of 59 percent is possible," says Ambrosio, classifying the measurement data from the wind tunnel test. Raúl Comesaña M., Managing Director of the BBF Group, adds: "Efficient small wind turbines make an important contribution to an independent energy supply. As a project developer and construction company in the Berlin-Brandenburg region, we demonstrate with this project how end consumers and businesses can design decentralized energy generation individually and sustainably."

Customized Lightweight Construction: Optimized Design, Manufacturing, and Aerodynamic

The rotor blades of the small wind turbine are constructed from two shells in a lightweight design. They are made of fiber composite materials. Compared to conventional designs, which are constructed with a foam core, the newly developed components are hollow inside. This construction method reduces the overall weight up to 35 percent. Fiber composites are produced by precisely laying fiber strips in a mold, which is then hardened using resins or other plastics to form a component.

Marcello Ambrosio and his team specially designed the mold for the rotor blades. The scientists use an industrial 3D printer that can print objects up to two-by-two meters in size. A modern Automated-Fibre-Placement system handles the placement of the fiber strips in the mold. This automated method ensures high quality, reduces overlaps compared to manual placement, and allows for smaller component dimensions.

A special laminate structure also ensures that the rotor withstands strong winds. "We designed the individual layers of the composite material so that the rotor blades can flex elastically in a storm and turn out of the wind," describes Marcello Ambrosio. This automatically reduces the rotation speed of the turbine and protects it from overload. Complicated control technology and elaborate mechanics can thus be avoided.

Energy Transition on Site: Prototypes in Practical Testing

Five prototypes of the small wind turbine were recently delivered to the BBF Group to be installed at various locations. With this approach, the researchers and their development partner aim to find out how the position and height of the system affect performance. The next steps include further optimization of the rotors and the development of lightweight structures made of monomaterial – meaning chemically identical materials – instead of composite materials. Such components are easier to recycle and help improve the environmental balance of lightweight solutions.

Fraunhofer Institute for Applied Polymer Research IAP | https://www.iap.fraunhofer.de/en

DiagnaMed and QIMC Confirm Major Discovery of Widespread Natural Hydrogen System in Ontario's Temiscamingue Graben
Oct 14, 2025

DiagnaMed and QIMC Confirm Major Discovery of Widespread Natural Hydrogen System in Ontario's Temiscamingue Graben

DiagnaMed Holdings Corp. (CSE: DMED) (OTCQB: DGNMF) ("DiagnaMed" or the "Company") and Québec Innovative Materials Corp. (CSE: QIMC) (OTCQB: QIMCF) (FSE: 7FJ) ("QIMC") are pleased to announce a major natural hydrogen discovery within Ontario's Témiscamingue Graben. The first set of analytical results confirms widespread hydrogen anomalies across the northern section of the Graben.

Of the 456 soil-gas samples analyzed to date, from the first four of ten survey lines209 exceeded 500 ppm H₂, with multiple readings surpassing 2,000 ppm and an average concentration of 558 ppm. These findings establish a strong indication of a regionally active natural hydrogen system extending west from Québec into Ontario-forming the foundation of the emerging Ontario-Québec Natural Hydrogen Corridor.

"This discovery represents a defining milestone for DiagnaMed's clean-tech portfolio," said John Karagiannidis, President & CEO of DiagnaMed. "It validates our strategy to leverage natural hydrogen systems not only for energy production, but also as the backbone of future clean energy technology ecosystems-including off-grid power solutions, AI data centers, and next-generation energy infrastructure. We are witnessing the early stages of a new energy paradigm in Ontario."

Key Results

  • 456 soil-gas samples collected across four survey lines (Lines 1-4) between July 8-21, 2025.
  • 209 samples > 500 ppm H₂ - average concentration: 558 ppm; median: 456 ppm.
  • Multiple high readings: 1936 ppm and 2205 ppm (Line 1); 2076 ppm (Line 3); 2098 ppm, 2100 ppm, 2255 ppm, and 2458 ppm (Line 4).
  • Hydrogen anomalies correlate with deep-seated fault systems and structural discontinuitiesbeneath Quaternary sediments in the Blanche River Valley.
  • Program conducted under the technical direction of the Institut national de la recherche scientifique (INRS) led by Prof. Marc Richer-Laflèche.

Geological and Scientific Significance

The survey area covers the northern Ontario extension of the Témiscamingue Graben, a Proterozoic-Paleozoic corridor where carbonate, dolomitic, and siliciclastic formations overlie the Cobalt Group and Nipissing mafic dykes-lithologies known for their permeability and hydrogen-generating potential.
These results demonstrate that hydrogen is actively migrating through fault-controlled structures, aided by shallow groundwater circulation beneath clay-silt Quaternary sediments.

"The hydrogen concentrations recorded in Ontario are unusually high for a regional soil-gas survey," said Prof. Marc Richer-Laflèche. "With an average of 558 ppm and over 200 samples above 500 ppm, the statistical consistency and geological alignment confirm the Témiscamingue Graben as a promising domain for hydrogen generation, migration, and possible trapping."

Community and Indigenous Partnership

DiagnaMed and QIMC acknowledge the Témiscamingue First Nation (TFN) and local Ontario communities for their ongoing collaboration and support throughout the program.
This partnership was recently formalized through a Memorandum of Understanding (MOU) recognizing that the exploration area lies within TFN's traditional hunting and cultural territories. The MOU establishes a framework for mutual respect, environmental stewardship, and shared economic benefits-including local employment and participation in future project development.

Next Steps

The Companies are advancing to the next phase of the Ontario exploration program, which will include:

  • Additional soil-gas survey lines extending westward along the Témiscamingue Graben
  • High-resolution AMT and magnetic surveys, coupled with radon-thoron gas mapping
  • Preliminary site selection for drilling in 2026
  • Integration of Ontario data into DiagnaMed and QIMC's cross-border Ontario-Québec Hydrogen Corridor Model.

"We are not only mapping hydrogen - we are defining the foundations of Ontario and Quebec's clean energy economy," added Karagiannidis. "This is how natural hydrogen transitions from discovery science to commercial-scale energy integration."

Québec Innovative Materials | https://qimaterials.com/

DiagnaMed | https://diagnamed.com/

 

MAX Power Advances Canada’s Leading Natural Hydrogen Corridor With Lucky Lake Target
Oct 14, 2025

MAX Power Advances Canada’s Leading Natural Hydrogen Corridor With Lucky Lake Target

MAX Power Mining Corp. (CSE: MAXX; OTC: MAXXF; FRANKFURT: 89N) (“MAX Power” or the “Company”) is pleased to announce the discovery of an important new Natural Hydrogen large target area known as “Lucky Lake” in the northwest corner of the 200-km-long Genesis Trend in southern Saskatchewan.

Favorably situated near major infrastructure, Lucky Lake has similar attributes to Lawson (50 km to the southeast), including geophysical footprint, where MAX Power will soon launch Canada’s first dedicated deep drilling program for Natural Hydrogen.

Lucky Lake Highlights

  • Lucky Lake is within what’s interpreted by MAX Power’s geoscience team as a “mobile zone”, a belt of rocks of higher density and low magnetic response which suggests these rocks may have been serpentinized (a process that releases hydrogen).
  • Lucky Lake shares similar features to Lawson (refer to Sept. 30, 2025 news release) - preliminary reconnaissance 2D trade seismic suggests the presence of complex structures created by multiple processes, including periodic basement movement, early and late dissolution of Middle Devonian salts, and relatively young igneous intrusive activity.
  • The MAX Power geoscience team is immediately proceeding with further detailed analysis of Lucky Lake, including the acquisition of additional trade data, to prioritize potential drill targets.
  • Lucky Lake is near a major source of hydroelectric power at the Gardiner Dam. In addition, it’s adjacent to the potash mining corridor and within a 2-hour drive of the city of Saskatoon to the northeast, Saskatchewan’s largest city.

Mr. Steve Halabura, MAX Power Chief Geoscientist, commented: “Lucky Lake underscores how a ‘pipeline’ of high-quality targets is developing at Genesis as we review an abundance of early-stage prospects with a disciplined scientific approach.   The scalability of Genesis is remarkable – it is unmatched in Canada for Natural Hydrogen potential in terms of size, the elements necessary for accumulations, and nearby infrastructure to allow for a relatively quick pathway to commercialization.” 

Mr. Mansoor Jan, MAX Power CEO, added: “Our work at Lucky Lake reinforces the scale and momentum of the Genesis Trend. Each new advanced target adds depth to our exploration model and expands the foundation for Canada’s first commercial Natural Hydrogen program, also giving our shareholders additional leverage. With PTRC’s scientific collaboration and Saskatchewan’s strong support for innovation, MAX Power is well- positioned to lead this emerging clean energy frontier.”

Figure 1: Genesis Trend 

Genesis Trend

Why This Matters To Investors

Lucky Lake further validates the size and scalability of MAX Power’s Genesis Trend, reinforcing the Company’s position as the clear leader in Canada’s emerging Natural Hydrogen industry. For investors, this represents exposure to a potential new primary energy source - clean, low-cost, and backed by Saskatchewan’s infrastructure and institutional support. As MAX Power advances its first deep well program at Lawson and expands the Genesis Trend portfolio, the company continues to build the scientific and operational framework that could reshape Canada’s Natural Hydrogen landscape.

MAX Power Saskatchewan Natural Hydrogen Documentary Video

https://www.youtube.com/watch?v=TXGDtTUbJ2c

MAX Power Natural Hydrogen Presentation

Learn more about MAX Power’s advantage in North America’s Natural Hydrogen sector by clicking on the following link:

https://www.maxpowermining.com/Maxpower_Hydrogen_Oct3_2025.pdf

MAX Power Mining | https://www.maxpowermining.com/

Energy Plug and Malahat Battery Technology Announce Strategic Alliance with Quantum eMotion on Energy and Defence, Including NATO-Aligned Initiative
Oct 14, 2025

Energy Plug and Malahat Battery Technology Announce Strategic Alliance with Quantum eMotion on Energy and Defence, Including NATO-Aligned Initiative

Energy Plug Technologies Corp. (CSE: PLUG) (OTCQB: PLGGF) (FSE: 6GQ), Malahat Battery Technology Corp. ("MBT") and Quantum eMotion Corp. (TSXV: QNC) (OTCQB: QNCCF) are pleased to announce the signing of a Joint Development Agreement to co-develop and commercialize quantum-secured energy storage and defence systems for critical infrastructure.

This partnership integrates Quantum eMotion's patented technologies with Energy Plug and MBT's advanced Battery Energy Storage Systems (BESS) and Energy Management Platforms (EMS/PMS) to deliver cyber-resilient, quantum-safe power systems capable of protecting national and industrial energy assets from emerging cyber and post-quantum threats.

Defence, Energy, and Indigenous Collaboration

MBT, an Indigenous-led enterprise affiliated with the Malahat Nation, will play a central role in system development, manufacturing, and Indigenous participation across defence and clean-energy programs.

The partners will jointly design and deploy quantum-secured BESS architectures supporting:

  • Arctic defence installations and remote military bases,

  • Portable field systems providing secure power and communications for deployed personnel,

  • Utility-scale smart grids incorporating quantum-safe encryption within critical energy and IoT infrastructure.

Building on this foundation, EPT, MBT and QeM are advancing a NATO-aligned defence initiative in partnership with one of the world's leading defence contractors, while also pursuing collaborative projects with a major international defence and energy partner - whose identity remains confidential at this stage - all developed under shared Canadian cybersecurity frameworks to deliver secure, energy-resilient systems equipped with quantum-enhanced cybersecurity.

A New Standard in Secure Energy

Quantum eMotion's QRNG2 chip, based on electron-tunnelling quantum effects, delivers high-speed, true randomness at the hardware level, while its QxEaaS platform provides entropy-on-demand for secure communications and distributed control.

Integrated within Energy Plug and MBT's energy systems, these technologies establish a quantum-resilient security layer spanning embedded hardware, edge devices, and cloud infrastructure.

This collaboration positions Energy Plug among the first energy-technology companies to operationalize quantum-grade cybersecurity, setting a new benchmark for resilience and trust in intelligent, decentralized power systems.

Quantum eMotion | https://www.quantumemotion.com/ 

Malahat Battery Technology | https://malahatbattery.com

Energy Plug Technologies | https://energyplug.com

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