Endurance for the missions
batteries can't reach.
The same electric-aviation engineering that powers civil vertiports hardens for the field. Liquid-hydrogen unmanned systems, deployable power and airspace, and the program discipline defense work demands.
Endurance measured in hours, not minutes.
Hydrogen has moved from the lab to the field — fuel-cell unmanned aircraft are now flying real missions. Compressed hydrogen buys hours where batteries give minutes; liquid hydrogen pushes endurance further still. The hard parts are boil-off, thermal management, and fuel behavior in flight — and that's exactly where we focus.
- Cryogenic storageliquid-hydrogen storage and delivery for high mass fraction and low boil-off.
- Thermal managementcontrolling boil-off, thermal load, and in-flight sloshing, the points that decide whether LH2 works.
- Scalable across groupsengineered for multiple UAS sizes, hardened for the field.
- On-site refuelingmobile, self-sustaining hydrogen paired with our solar-electrolysis power.

SBIR / STTR capture
Proposals and capture management built on a real win record — including AI-focused SBIR work and active liquid-hydrogen UAS pursuits.
Deployable power
Off-grid solar-and-storage microgrids bring resilient power to austere sites and forward operations — fuel logistics without the fuel convoy.
Cleared & credentialed
Active federal-contractor clearance, rated pilots holding FAA Part 107 certificates, a PMP, and decades managing DoD programs under FAR and procurement compliance.
One team across the whole program.
Aero Voltaics is an advanced aviation infrastructure and systems integration company focused on accelerating the deployment and scaling of electrified aviation infrastructure. We combine infrastructure planning, airspace integration, energy systems, simulation environments, certification support, and commercialization strategy into one coordinated platform — carrying aviation technology from research and development through to operational deployment.
AAM systems integration
Vertiport architecture and infrastructure design, airspace integration and CONOPS development, FAA certification support including Part 135 adjacency planning, remote tower and distributed operations, and end-to-end ecosystem modeling.
Simulation, digital twin & AI
Pilot-in-the-loop simulation environments, aviation digital twins for operational systems, AI-enabled mission planning and optimization, custom simulation software, and human-in-the-loop validation and training.
Infrastructure & energy systems
Hydrogen and hybrid aviation energy integration, vertiport microgrids and distributed energy, sustainable infrastructure planning, and ground-support energy architecture for AAM networks.
Training & operational enablement
Flight simulation-based training systems, AAM operational readiness programs, scenario-based certification and evaluation environments, and system-of-systems training integration.
Program management & commercialization
FAA, DoW, and commercial aviation program execution, systems engineering and lifecycle integration management, SBIR/STTR transition from R&D to deployment, and public-private infrastructure development strategies.
What sets us apart
End-to-end ecosystem integration rather than a point solution — with a strong link between R&D programs and operational deployment pathways, and the ability to bridge government innovation programs into commercial aviation operations.
Contracting quick reference
NAICS codes
Dual-use by design.
What we build for the commercial electric market hardens for defense — and what we prove in defense de-risks the commercial rollout. Let's find the overlap in your program.
