Battery Urban Mining
& Electronics Recovery
India generates millions of tonnes of electronic waste every year. Most of the valuable materials inside — lithium, cobalt, gold, silver — are lost to landfill or exported unprocessed. ρ-MATRIQS™ changes that.
Every E-Waste Stream.
Maximum Value Recovered.
From batteries to PCBs to solar panels — ρ-MATRIQS™ identifies every material type and routes it to its highest-value recovery stream. At belt speed. Automatically.
Battery Recycling
Identifies battery chemistries — Li-ion, NMC, LFP, NiMH — and separates them for targeted recovery. Lithium, cobalt, and nickel are captured at significantly higher rates than conventional hydrometallurgical routes alone.
PCB Sorting
High-speed chemical identification of PCBs by precious metal content. Routes high-value boards — rich in gold and silver — to premium smelting streams, rather than bulk processing where value is lost.
Solar PV Recovery
End-of-life solar panels contain recoverable silicon, silver, and indium. ρ-MATRIQS™ identifies and sorts panel components to maximise the value extracted from decommissioned solar infrastructure.
Consumer Electronics
Mobile phones, laptops, and household appliances are sorted by material composition — separating copper-rich wiring, aluminium chassis, and precious-metal-bearing chips for separate recovery streams.
EPR Compliance
Full chain-of-custody logging for Extended Producer Responsibility obligations. Every device entering the facility is logged, every material recovered is documented, and every certificate is generated automatically.
Value Maximisation
Premium precious metal prices justify precision sorting. Routing the right material to the right smelter — rather than bulk processing everything — unlocks significant additional revenue per tonne.
What This Looks Like on a Real E-Waste Line
Before and After ρ-MATRIQS™
Most e-waste facilities leave 30–50% of recoverable value on the table — not because they don't want to recover it, but because they can't identify it fast enough to sort it correctly.
❌ Before — Manual Triage
- ✗Manual PCB triage — 6–8% misrouted boards lost to bulk processing
- ✗Battery chemistry unknown — mixed chemistries routed to generic hydrometallurgy
- ✗No EPR records — CPCB compliance requires manual data assembly each cycle
- ✗Solar panels landfilled — silicon, silver, indium not recovered at all
- ✗30–50% of recoverable precious metal value left in output stream
✓ After — ρ-MATRIQS™
- ✓AI triage at belt — <1% misroute rate, certified precious metal routing
- ✓Battery chemistry identified in under 1ms — targeted recovery by chemistry type
- ✓EPR certificate auto-issued per lot — CPCB return generated from daily logs
- ✓Solar panels sorted by component — silicon, silver, indium to correct streams
- ✓Premium smelter routing captures full precious metal value per tonne
Every percentage point of misrouted precious metal is revenue that never returns. ρ-MATRIQS™ stops the leak.
Every Sort Decision Is
a Compliance Record
CPCB, EPR, and ESG data generated automatically as a by-product of every sort decision. No additional staff time. No manual data collection. No consultant fees.
- ✓CPCB Annual Return data auto-generated from daily sort logs
- ✓EPR certificate auto-issued per lot — signed, timestamped, immutable
- ✓Device-level intake logging — every WEEE unit documented on entry
- ✓CO₂ per tonne tracked — Panchamrit progress measurable in real time
- ✓Export-ready: PDF, CSV, API — for CPCB, investors, and auditors
Every record is immutable and timestamped. If a CPCB inspector asks for documentation, your team exports from the dashboard — nothing to assemble manually.
Unlock the Value in E-Waste
Most e-waste facilities leave 30–50% of recoverable value on the table. We can show you exactly how much yours is leaving behind — specific to your material mix. No cost. No commitment.
CPCB / EPR Compliant · DPIIT Recognised · Make in India