Executive Brief
Gaiamesh Limited is an advanced materials company specializing in the development of Graphene-enhanced technologies, specifically focusing on environmental remediation and high-performance filtration. Their core IP revolves around the "G-Mesh" architecture—a functionalized graphene-coated substrate used for water purification, oil-water separation, and mineral recovery.
Strategic Fit & Lead Score
Lead Score: 78 (Strong Potential)
Why this Score? Gaiamesh is already deep in the "Advanced Carbon" ecosystem. While they currently focus on Graphene, their business model—using carbon allotropes to solve environmental and filtration challenges—is perfectly aligned with 6C’s Boron-Doped Diamond (BDD) and Custom Coating capabilities. BDD is the only material that outperforms functionalized graphene in the electrochemical oxidation of "forever chemicals" (PFAS) and heavy metal sensing, representing a natural high-tier expansion for Gaiamesh's product line.
6C Solutions Proposal
| Application Area | 6C Solution | Technical Value Prop |
|---|---|---|
| Advanced Oxidation (AOP) | BDD Electrodes | BDD has the widest electrochemical window (>2.5V), enabling the production of hydroxyl radicals (•OH) for the total mineralization of PFAS and industrial toxins that graphene cannot fully degrade. |
| Heavy Metal Sensing | SCD/BDD Sensors | 6C's BDD-on-Silicon or SCD electrodes provide ppb-level (parts per billion) sensitivity for detection of Lead, Mercury, and Arsenic with zero electrode fouling. |
| Membrane Durability | Diamond Coating | Direct MPCVD diamond coating on Gaiamesh's mesh substrates provides extreme chemical inertness and abrasion resistance, extending the lifecycle of filters in "harsh-environment" industrial mining. |
| R&D Infrastructure | Custom MPCVD Reactor | Enables Gaiamesh to transition from a Graphene-only company to a "Carbon Allotrope" powerhouse by developing in-house Diamond/Graphene hybrid materials. |
| Thermal Management | PCD Heat Spreaders | If Gaiamesh expands into high-power electrolysis systems, our PCD (Thermal Conductivity >1800 W/mK) prevents thermal runaway in high-current-density cells. |
Engagement Hooks
- Technical Question: "Gaiamesh has mastered graphene-based separation, but how are you addressing the 'recalcitrant pollutant' problem where graphene's chemical stability meets its limit? Have you considered BDD as a complementary electrochemical stage for total PFAS destruction?"
- Value Statement: "6C can upgrade Gaiamesh’s filtration architecture from passive separation to active electrochemical mineralization using our proprietary Boron-Doped Diamond technology, achieving 99.9% degradation of pharmaceutical and industrial micro-pollutants."