Green Battery
Bamboo biomass to sodium-ion hard carbon
Vertically integrated from biomass sourcing to advanced carbon material production, enabling scalable supply of the materials the energy-storage revolution needs.
Bamboo to battery — one integrated chain
Bamboo is one of the fastest-growing, most carbon-dense biomass crops on the planet. We convert it into biochar and battery-grade hard carbon through tightly controlled thermal and chemical processing — owning sourcing, conversion, and qualification end-to-end.
Bamboo as feedstock
A perennial, low-input crop with rapid regrowth — ideal for high-volume, low-carbon biomass supply.
Carbonisation + activation
Proprietary pyrolysis and activation programmes tuned for hard-carbon performance and biochar quality.
Qualification & quality
In-line analytics and external accreditation give battery customers the consistency they require.
Three revenue streams from one feedstock
Biochar Sales
Biochar for energy generation, soil amendment, and industrial applications — sold by the tonne to global buyers.
Battery-Grade Hard Carbon
Anode-grade hard carbon shipped to sodium-ion cell manufacturers under long-term supply agreements.
Carbon Credit Monetisation
Durable biochar carbon sequestration generates premium removal credits for compliance and voluntary buyers.
Sodium-ion is the next chapter of battery storage
Sodium-ion batteries are emerging as a low-cost, abundant alternative to lithium-ion — particularly for stationary storage and entry-level EVs. Hard carbon is the dominant anode material, and sustainably sourced biomass-derived hard carbon is structurally advantaged on cost, carbon footprint, and supply security.
- Sodium is ~1,000× more abundant in the Earth's crust than lithium.
- Hard carbon is the dominant anode chemistry for sodium-ion cells.
- Biomass-derived hard carbon avoids the supply-chain risk of petroleum-pitch and synthetic precursors.
How bamboo becomes battery material
- Step 01
Biomass Input
Bamboo and complementary organic feedstock sourced from sustainably managed plots.
- Step 02
Carbonisation
Thermal pyrolysis under controlled oxygen-deficient conditions transforms biomass into raw biochar.
- Step 03
Activation
Thermal and chemical activation tailors surface area, porosity, and electrochemical performance.
- Step 04
Application
Output streams routed to energy storage, battery cells, and industrial applications.
Where green battery materials show up
From grid-scale storage to vehicle batteries, our materials meet the energy transition where it's growing fastest.
Grid-Scale Storage
Stationary storage paired with renewables, frequency regulation, and peak-shaving.
Entry-Level EVs
Cost-sensitive vehicle segments where sodium-ion economics outperform lithium.
Distributed Solar
Behind-the-meter and microgrid systems matching low-cost storage to abundant solar.
Carbon Removal
Durable biochar sequestration delivers verifiable, long-duration carbon credits.
Green Battery
Build your battery supply chain on biomass
We work with cell manufacturers, battery integrators, and storage developers from material qualification through long-term off-take.