Identify carbon-rich inputs
We evaluate agricultural, electronic, and industrial waste streams for usable carbon content and conversion fit.
DeaconTech converts agricultural waste, electronic waste, and other carbon-rich streams into graphene and graphene-related carbon materials for concrete, coatings, batteries, composites, and industrial research.
DeaconTech is building a carbon-materials platform around used carbon. Instead of treating agricultural and electronic waste as disposal problems, we use carbon-rich feedstocks as inputs for graphene and graphene-related material production.
Our proprietary process and equipment have been developed in-house over the past 3–4 years to create a faster, more efficient path to industrial graphene materials.
By converting used carbon streams into higher-value material outputs, DeaconTech helps connect waste diversion, sustainability, and advanced manufacturing.
Our process is designed around speed, efficiency, and practical industrial output. Process details are summarized at a high level to protect DeaconTech’s proprietary technology and equipment design.
We evaluate agricultural, electronic, and industrial waste streams for usable carbon content and conversion fit.
Material is prepared for DeaconTech’s in-house carbon-conversion process and equipment system.
Our batch process is designed to produce usable graphene-related material in hours instead of days to weeks.
Material can be supported with SEM/TEM/Raman data, TDS/SDS documentation, and third-party university testing review.
Any carbon-credit or environmental-credit claims should be handled through applicable third-party verification and program requirements.
Graphene is not one product. Different applications need different graphene forms, particle structures, surface chemistry, and performance targets.
Our flagship waste-carbon-derived graphene-related carbon powder is designed for industrial additive applications, including concrete, coatings, composites, and energy-storage research.
Misaligned graphene-layer structures useful for conductive materials, energy-storage research, concrete additives, coatings, and composites.
A practical industrial form that bridges the gap between monolayer graphene and graphite-like carbon, useful across coatings, composites, thermal materials, and batteries.
Scalable graphene-related platelets for use as additives in concrete, polymers, coatings, rubber, thermal materials, and conductive composites.
The right graphene form depends on what the customer is trying to improve: strength, conductivity, durability, corrosion resistance, thermal transfer, barrier protection, or energy-storage performance.
Graphene-related additives can support strength, durability, lower permeability, and sustainability-focused construction materials.
Graphene can improve barrier behavior, wear resistance, corrosion protection, and long-term surface durability.
Conductive graphene-related carbons can support electrode development, charge transfer, and energy-storage research.
Graphene materials can improve stiffness, strength, conductivity, and thermal performance in polymer and composite systems.
Few-layer graphene and nanoplatelets can support heat-spreading and thermal-management applications.
DeaconTech can support material testing conversations with samples, SEM/TEM/Raman data, TDS/SDS documentation, and technical review support.
DeaconTech is building a scalable platform for transforming carbon-rich waste into graphene and graphene-related materials with real industrial use cases.