Scientist-led, IIT Delhi-pedigreed graphene manufacturing know-how. Full technology transfer from lab to large-scale industrial production. Process dossier, IP licensing, turnkey plant execution. Validated. Ready to deploy globally.
A single-atom-thick layer of carbon in a hexagonal lattice. No other material on Earth combines these properties in one substrate.
At a fraction of the weight. 130 GPa tensile strength. Transforming aerospace, defence, and structural composites.
Carrier mobility far exceeding silicon. Next-generation batteries, supercapacitors, and semiconductors depend on it.
10× better than copper. Critical for EV battery thermal management and high-power electronics cooling.
Unmatched surface-to-mass ratio. Enables ultra-efficient filtration membranes, coatings, and catalysts.
Can safely interface with biological systems. Drug delivery, biosensors, and advanced medical diagnostics.
Impermeable to gases — including helium — at single-atom thickness. Revolutionary for barrier coatings and packaging.
The fundamental problem is not demand — it is scalable, cost-effective manufacturing. Most graphene today is produced at gram scale in labs. Industrial buyers need tonnes. That is exactly what we deliver.
Every sector below is actively sourcing tonnage-scale graphene supply.
Modular. Every level is fully creditable toward the next. Each builds on proven industrial know-how — not academic research.
Half-day interactive session: graphene grades, specifications, industrial quality benchmarks
Market size deep-dive: where the real demand is and what buyers will pay
Myth vs. reality: debunking lab-scale hype, understanding industrial-grade reality
Q&A with core team — assess your current feedstock and process readiness
Two-day workshop mapping graphene use-cases: energy, composites, coatings, electronics, water
Fit-Gap analysis for your feedstock, infrastructure, and existing capabilities
Prioritized product short-list with ROI projections per application vertical
Buyer identification: which industrial buyers in your region need your grade
Five-day engineering exercise to select the lowest-cost bulk synthesis route: CVD, LPE, HTC, electrochemical exfoliation
Mass and energy balance, full capex/opex model for your target scale
Pilot-line layout and equipment specification for 1–5 TPM scale-up
Qualified supplier and raw-material list with pricing benchmarks
Full process dossier: SOPs, P&IDs, QC protocols, EHS guidelines — your team can build independently
3-D factory layout plus utilities map for your site
Non-exclusive IP licensing for our proprietary synthesis process — freedom-to-operate included
40 hours of remote commissioning support post-handover
Validated to 0.250 TPD — 91 tonnes per annum at single-line scale
End-to-end EPC delivery: machinery procurement, installation, and commissioning at your site globally
Operator training and full knowledge transfer to your technical team
Performance guarantee: certified output quality meeting your buyer's industrial specification
First-year production optimization support — continuous until target throughput is stable
Scale from 91 TPY to 300+ TPY through parallel line architecture
Shortcut 18–24 months of trial-and-error. Our process knowledge is tested, scaled, and proven — not theoretical. Your team inherits a decade of iteration in a 6-week transfer.
Proven synthesis routes that cut capital expenditure versus benchmark greenfield plants. Equipment choices, utility sizing, and layout decisions that took years to optimize — yours immediately.
Licensed process documentation gives your legal and IP team clear freedom-to-operate. No hidden constraints. Non-exclusive licence structure preserves your ability to develop derivative IP.
Designs validated at 0.250 TPD (91 TPY per line). Parallel-line architecture scales to 300, 500, 1,000 TPY without redesign. Multi-gigawatt battery plant supply chains can be served.
Our process closes the carbon loop — capturing CO₂ and converting it into high-value graphene. Zero landfill. Verified sustainability credentials for ESG-reporting buyers.
Deep network across graphene equipment suppliers, international nanomaterial buyers, and industrial formulation labs. We introduce you to your first off-take partner as part of Level 3+.
If your organisation is seeking tonnage-scale graphene supply, planning a graphene facility, or needs a competitive technology edge in any of these sectors — this is the conversation to have.
EV battery gigafactories sourcing graphene anodes and cathode enhancers at scale.
Vehicle makers building proprietary battery chemistry and lightweight structural components.
Structural composite programmes, radar-absorbing materials, and EMI shielding solutions.
Carbon-fibre composite manufacturers adding graphene to existing resin and fibre systems.
Graphene-enhanced concrete reduces cement usage by 30% while increasing strength — a decarbonisation lever.
Marine, industrial, and anti-corrosion coatings with graphene barrier properties — next-generation product lines.
Post-silicon transistor research, thermal management substrates, and flexible electronics.
Graphene oxide membranes for industrial water filtration and desalination at scale.
Technology transfer decisions live in R&D, operations, and corporate strategy. Here is who typically leads these conversations.
30-minute call. We align on your feedstock, target scale, application vertical, and timeline. No NDA required at this stage.
Based on your readiness — from Foundations orientation to direct Technology Transfer Pack. We issue a detailed Statement of Work.
Structured, milestone-driven delivery. Your team receives process dossier, SOP library, P&IDs, QC protocols, and commissioning support.
Your plant runs. Your team owns the process. We remain available for first-year optimization and scale-up from 91 TPY to 300+ TPY.
Whether you are evaluating, budgeting, or ready to sign — send details of your requirement. All enquiries are responded to within 48 hours.