microgrid solar panels battery

Create your own electricity

Solar Panels: Proven PV modules to power homes, clinics, and small businesses.

OPV Cells (Organic PV): Lightweight, flexible solar for new surfaces and use-cases.

PEM Fuel Cells: Clean power from hydrogen for resilient, on‑demand electricity.

Create Your Own Electricity

We empower, educate, encourage, and envision people to generate their own power using Solar Panels, OPV (Organic PV) Cells, and PEM Fuel Cells—at home, in communities, clinics, and small businesses.

What is plug-and-play solar?

A compact, grid-tied solar kit—typically 2–3 panels and a microinverter—that feeds clean power into a dedicated household circuit to reduce your grid use while the sun shines.

• Typical size: 2–3 panels (≈0.7–1.3 kW DC) paired to a microinverter capped near ~1.2 kW AC.
• Goal: offset daytime consumption and lower bills.
• For outages or evening peak (4–9 pm), add a battery-enabled system—see About for details.

Solar panel deployments: roof-mounted or ground-mounted

Choose the best layout for your site: roof-mounted arrays make use of existing structures and reduce footprint, while ground-mounted systems optimize tilt, orientation, and maintenance access for maximum yield. We also assess Perovskite solar cells as an alternative pathway, and support OPV (Organic PV) solutions that can operate on their own or be enhanced with IoT monitoring and smart controls. For long-duration resilience, we integrate reversible PEM fuel cells that act as an electrolyzer to produce H2, then run as a fuel cell to generate electricity on demand.

Perovskite solar cells

Cutting-edge thin-film PV with promising efficiency and low-light performance. Evaluated as an alternative or tandem option where appropriate.

OPV: stand-alone + IoT-aided

Organic PV works on its own for lightweight, flexible installs—and performs even better with IoT sensors, data logging, and smart inverters for tracking and predictive maintenance.

Reversible PEM fuel cells

Operate in electrolyzer mode to produce green H2 from surplus solar, then switch to fuel cell mode to supply clean electricity when needed.