About – C2CNT Consultation

About C2CNT

What We Consult On

The C2CNT process electrolyzes CO₂ into carbon nanotubes, continuously converting greenhouse gas into valuable nanomaterials while releasing oxygen

Technology & Consulting

What We Consult On

C2CNT — Carbon Dioxide to Carbon Nanotubes/Nanomaterials

The C2CNT process is an advanced electrochemical process that turns carbon dioxide into valuable Carbon NanoTubes and related Carbon Nanomaterials (CNTs & CNMs). C2CNT stands out because it solves 2 problems at once: cutting greenhouse gases and producing ultra-high-performance materials.

Why the C2CNT process is so good (a non-extensive summary):

Consumes CO₂ directly: CO₂ from industrial exhaust or atmospheric air is used as a feedstock and later permanently trapped as CNTs/CNMs.
Produces extremely valuable materials: CNTs are lightweight, super-strong, electrically conductive materials used in batteries, aerospace, construction, electronics, and composites. Other CNMs have been used as ultra-hard materials, ultra-good lubricants, plasma generators, ultra-light absorbers, and more.
Energy-efficient and scalable, even Carbon Negative: The process uses molten carbonate electrolysis and can be powered by renewable energy. When powered by clean energy, it doesn’t just reduce emissions—it can remove CO₂ permanently.

Economically attractive: CNTs/CNMs are far more valuable than the cost of capturing CO₂, meaning the process can pay for itself and even generate substantial profit.

Big Picture

C2CNT turns pollution into profit and supports climate-mitigating industries.

Technology & Consulting

What We Consult On

C2CNT — Carbon Dioxide to Carbon NanoTubes

The C2CNT process is an advanced electrochemical process that turns carbon dioxide into valuable Carbon NanoTubes and related Carbon Nanomaterials (CNTs & CNMs).

At its core, the process electrolyzes CO₂ dissolved in a molten carbonate electrolyte at high temperature. The carbon from CO₂ is deposited as solid carbon nanotubes at the cathode, while oxygen is released at the anode. The result is a continuous, scalable conversion of a greenhouse gas into one of the most commercially valuable nanomaterials known to science.

Why the C2CNT process is so good:

Consumes CO₂ directly — actively reduces atmospheric greenhouse gas
Produces extremely valuable materials — CNTs sell for thousands of dollars per kilogram
Energy-efficient and scalable — powered by renewable sources including solar
Economically attractive — turns pollution liability into high-value product

Big Picture

C2CNT turns pollution into profit and supports climate-mitigating industries.

About C2CNT

What We Consult On

Technology & Consulting

What We Consult On

C2CNT — Carbon Dioxide to Carbon Nanotubes/Nanomaterials

Why the C2CNT process is so good (a non-extensive summary):

Big Picture

Technology & Consulting

What We Consult On

C2CNT — Carbon Dioxide to Carbon NanoTubes

Why the C2CNT process is so good:

Big Picture

Other Consulting Areas

Uses of CNMs and CNTs

Doped CNTs

Molten Air Batteries

VB₂ Batteries and Super Iron

Climate Change Mitigation

Related processes similar to C2CNT, such as STEP process to make CO₂-free staples such as Iron, Hydrogen, Magnesium, Lime, and more

About C2CNT

What We Consult On​

Technology & Consulting

What We Consult On

C2CNT — Carbon Dioxide to Carbon Nanotubes/Nanomaterials

Why the C2CNT process is so good (a non-extensive summary):

Big Picture

Technology & Consulting

What We Consult On

C2CNT — Carbon Dioxide to Carbon NanoTubes

Why the C2CNT process is so good:

Big Picture

Other Consulting Areas

Uses of CNMs and CNTs

Doped CNTs

Molten Air Batteries

VB₂ Batteries and Super Iron

Climate Change Mitigation

Related processes similar to C2CNT, such as STEP process to make CO₂-free staples such as Iron, Hydrogen, Magnesium, Lime, and more

What We Consult On