Company: HYSR
Filing Date: 2025-09-15
Form Type: 10-K
Source: 0001213900-25-087311
Chunk: 7

Company: SUNHYDROGEN, INC.
Filing Date: 2025-09-15
Form: 10-K
Item: Item 1
Chunk 7
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 fuel cell stacks were deployed in AVL’s DemoTruck prototype—a class 8, 40-ton vehicle unveiled at the Vienna Motor
Symposium—showcasing applicability in heavy-duty land transport, Meanwhile, TECO’s marine fuel cell module has undergone full-power
testing at AVL’s test facility in Graz, Austria—successfully reaching stable, maximum output and positioning it as the world’s
most powerful marine fuel cell system.

In addition to its long-standing collaboration
with AVL, TECO Fuel Cell Technology has entered into a strategic partnership with India-based Advite Infratec, unlocking new market opportunities.
The company is also expanding into on-site power generation, which aligns closely with SunHydrogen’s renewable hydrogen production
technology. Together, this synergy may pave the way for integrated remote power system solutions—delivering localized, resilient,
and sustainable energy where grid access is limited.

SunHydrogen believes that, if successfully implemented,
the combination of its renewable hydrogen production systems and TECO Fuel Cell Technology’s advanced fuel cell platforms could
enable meaningful synergies—supporting the development of clean, reliable, and cost-effective energy ecosystems in key markets worldwide.

Our Technology

Technology for Making Renewable Hydrogen
from Sunlight and Water

Powered by solar energy, our technology utilizes two innovative approaches
to produce renewable hydrogen from water, leaving behind only clean oxygen as a byproduct:

●Nanoparticle-Based Photoelectrosynthetically Active Heterostructures (PAH): Our microscopic PAH nanoparticles function like tiny machines
that mimic the natural process of photosynthesis within a plant cell. Composed of multiple layers, these nanoparticles enable solar-powered
electrolysis to occur at the molecular level, splitting water to extract hydrogen as a clean energy source. This nanoparticle-based system
offers high fault tolerance and superior solar-to-hydrogen efficiencies at a low cost, making it an economically viable and scalable solution
for renewable hydrogen production.

●Thin-Film Solar Cell-Based Hydrogen Modules: In parallel, we are also developing hydrogen modules, using commercially available thin-film
photovoltaic (PV) technology. These modules are re-engineered with our proprietary hydrogen module design to perform solar water splitting
without altering the existing PV manufacturing process. This approach leverages mature manufacturing platforms, allowing for faster market
entry while still enabling cost-effective and scalable hydrogen production.

By advancing both nanoparticle and thin-film solar cell technologies,
we are strategically positioned to accelerate the production of renewable hydrogen, providing