From Forest Floor to High-Value Materials

Biomass is organic material from living or recently living organisms. In the context of ResolutX, that means forest waste: slash piles from logging operations, residuals from lumber and paper milling, brush cleared during fire management projects, and wood debris from storm damage or hazard tree removal.

This material is abundant, low-cost, and — under conventional forest management — a liability. It accumulates on forest floors, creating fire fuel loads. States and utilities spend millions to chip, haul, and dispose of it. In many cases, it's simply burned in open piles.

Why Shasta County

Shasta County sits in one of the highest biomass-density regions in California and the nation. The surrounding forests produce enormous volumes of residual biomass from commercial logging, fire prevention programs, and utility corridor clearing. This isn't theoretical supply — it's material that's being generated continuously and actively looking for a destination.

ResolutX is positioned at the center of this supply chain. Our pilot plant site is integrated with the regional biomass hub infrastructure, giving us cost-effective access to feedstock volumes that support commercial-scale production.

Pyrolysis is a thermochemical process: high heat applied to organic material in an oxygen-free environment. Without oxygen, the material can't combust. Instead, it breaks down at the molecular level into stable solid and gaseous components.

In ResolutX's process, biomass enters the reactor at controlled temperatures and residence times tuned for optimal output quality. The result is two primary streams:

The Energy Loop

The syngas stream is not wasted. It is either processed into renewable fuel for sale, or rerouted to heat the pyrolysis reactor itself. This closed-loop energy design dramatically reduces external energy input — in many configurations, the reactor can sustain its own thermal requirements using only the gas it generates. That's a meaningful cost advantage in a production environment.

Graphene is a single atomic layer of carbon atoms arranged in a hexagonal lattice. It is the thinnest material ever isolated, yet it is approximately 200 times stronger than steel. It conducts electricity and heat better than copper. It is nearly transparent and flexible enough to bend without breaking.

Discovered in 2004 and recognized with the Nobel Prize in Physics in 2010, graphene has been described as the most significant material discovery of the modern era. It is now used — or actively being integrated — across energy storage, semiconductors, aerospace coatings, construction materials, filtration, and medical devices.

The ResolutX Upgrade Process

The biochar produced in our pyrolysis stage is not standard agricultural biochar. It is produced and processed to specification as a precursor material for graphene production. ResolutX's proprietary upgrade process converts this biochar into graphene at multiple grades, each suited to different industrial applications.

This is the technical core of the ResolutX model: taking material that other producers treat as a commodity byproduct and converting it into one of the highest-value carbon materials on the market.

What Doesn't Upgrade, Doesn't Waste

Not all biochar reaches graphene-grade specification in every batch. Any biochar that does not pass upgrade thresholds is sold as premium agricultural biochar — a high-demand soil amendment and carbon sequestration product. Zero waste is not a marketing claim. It is a process design constraint we engineer around.

The individual technologies here — pyrolysis, biochar, graphene production — are not new. What's new is putting them together on one site, under one operating model, with zero-waste design as a foundational constraint.

ResolutX is in active pilot plant development at our Shasta County site. The pilot plant is engineered with a deliberate design philosophy: every component, every sizing decision, every process parameter is selected to scale directly into a commercial plant without redesign.

This is not a proof-of-concept that will need to be thrown away. It is a commercial plant running at pilot scale.

Investment to Date

Millions of dollars have been invested in R&D, engineering documentation, lab work, and site preparation. Lab results are available for qualified partners and investors. The science is proven. The process works. The current phase is about optimizing throughput and building the operational infrastructure for commercial scale.

What's Next