HDPLas Carbon Nanotubes and Graphene Nanoplatelets

Haydale's proprietary purification and functionalization processes can be used to removed all residual catalyst, exfoliate and liberate individual nanostructures, improve dispersion, and surface engineer nanostructures for the specific end us. Available functionalities include Oxygen, Water, Gold, Argon, Acids, Silver, Nitrogen, Monomers, Platinum, Ammonia, Carbon Dioxide, Fluorocarbons, & chlorocarbons. 


HDPlas Carbon Nanotubes and Graphene Nanoplatelets

 

HDPlas Single Walled/Double Walled Carbon Nanotubes HDPlas SW/DWCNTs

 

HDPlas Functionalized Single Walled/Double Walled Carbon Nanotubes- HDPlas SW/DWCNTs

 

HDPlas Multi Walled Carbon Nanotubes-HDPlas MWCNTs

 

HDPlas Functionalized Multi Walled Carbon Nanotubes- HDPlas MWCNTs

 

HDPlas Graphene Nanoplatelets-HDPlas GNPs

 

HDPlas Functionalized Graphene Nanoplatelets- HDPlas GNPs

 

HDPlas Graphene Nanoplatelet-HDPlas GNPs Scrolls Coming Soon

Surfactant Free HDPlas Graphene Nanoplatelet Ink coming soon

 

HDPlas MWCNTs & SWCNTs are CCVD multi-walled carbon nanotubes which have been plasma processed to reduce contaminants and liberate individual nanostructures. The “Split Plasma Technique” also surface engineers the nanomaterials to enable particle to matrix compatibility without damaging the crystalline structure.

HDPlas GNPs is a refined natural graphite powder which has been plasma processed to reduce contaminants and liberate individual nanostructures in the form of Graphene Nano Platelets. The “Split Plasma Technique” also surface engineers the nanomaterials to enable particle to matrix compatibility without damaging the crystalline structure.

Cheap Tubes Inc is the primary supplier of HDPlas products to the R&D community worldwide and the sole and excusive agent in North America.

 

Haydale has developed the capability to refine raw industrial quality MWCNTs, SWCNTs and Mined Graphite providing Graphene bearing Nano Powders (GNP’s) within a Split Plasma reactor.

The process facilitates:

De-agglomeration – Detangling the agglomerate; reducing the particle size of Mined Graphite and raw fullerene powders

Exfoliation – Liberating individual nano structures from agglomerates and crystals

Purification – Reducing to trace or removing Graphite ore contaminants such as silica and post production residues such as amorphous carbon, and metallic catalysts

Surface Functionalization – Engineering the surface chemistry of the nano materials to improve compatibility with most dispersions, inks and polymer systems

All of the above functions occur simultaneously within the Split Plasma system. The Split Plasma system is clean, energy lean, environmentally friendly, cost effective, safe and quick. The whole procedure takes significantly less time than the hours, or days that current methods demand.

Haydale have a wealth of experience and unique knowledge in the respect of utilizing plasma enhanced nano materials. Haydale treated materials can improve your process.

 Please Note- All HDPlas Products prices are for R&D quantities. Commercial Quantities are available.  Please contact us for commercial pricing.

HDPlas Single Walled/Double Walled Carbon Nanotubes HDPlas SWCNTs

 

 

Non Functionalized

HDPlas SW/DWCNTs – dot

Product: HDPlas Single Walled/Double Walled Carbon Nanotubes

 Plasma Process Gas: Argon

Primary Functionality: None

Other Functionalities: Atmospheric Gas             

Source Material: CCVD SWNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

Functionalized Single Walled/Double Walled Carbon Nanotubes- HDPlas SW/DWCNTs

 

HDPlas SWCNTs/DWCNT mix – COOH
Product: HDPlas SW/DWCNTs approx 50/50
There is a possibilty of some MWCNT’s being present in the powder
(less than 2%)
Plasma Process Gas: Proprietary Oxygen Based
Primary Functionality: COOH
Other Functionalities: COH, C=O, Other Oxygen
Source Material: CCVD SWCNTs
Form Supplied: Dry Powder
Process: Split Plasma
Packaging: Nano-suitable airtight container

 

HDPLas Multi Walled Carbon Nanotubes-HDPlas MWCNTs

 

 

HDPlas MWCNTs – dot

Product: HDPlas Multi Walled Carbon Nanotubes-MWCNTs

Plasma Process Gas: Argon

Primary Functionality: None

Other Functionalities: Atmospheric Gas             

Source Material: CCVD MWCNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas Functionalized Multi Walled Carbon Nanotubes- HDPlas MWCNTs

 

HDPlas MWCNTs – COOH

Product: HDPlas Multi Walled Carbon Nanotubes

Plasma Process Gas: Proprietary Oxygen Based

Primary Functionality: COOH

Other Functionalities: COH, C=O, Other Oxygen

Source Material: CCVD MWCNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas MWCNTs – O2

Product: HDPlas MWCNTs

Plasma Process Gas:  Oxygen

Primary Functionality: COH

Other Functionalities: C=O, COOH, Other Oxygen

Source Material: CCVD MWCNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas MWCNTs – N2

Product: HDPlas MWCNTs

Plasma Process Gas: Nitrogen

Primary Functionality: N-H

Other Functionalities: N=H, Nx, NOx, O=C-N-H2

Source Material: CCVD MWCNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas MWCNTs – F

Product: HDPlas MWCNTs

Plasma Process Gas: Tetrafluoromethane

Primary Functionality: Fx

Other Functionalities: Not Known

Source Material: CCVD MWCNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas MWCNTs – NH2

Product: HDPlas MWCNTs

Plasma Process Gas: Nitrogen

Primary Functionality: N=H

Other Functionalities: N-H, O=C-N-H2, C ≡N              

Source Material: CCVD MWCNTs

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas Graphene Nanoplatelets-HDPlas GNPs

 

  

 

HDPlas GNPs – dot

Product: HDPlas Gaphene Nano Platelets-GNPs

Plasma Process Gas: Argon

Primary Functionality: None

Other Functionalities: Atmospheric Gas             

Source Material: Natural Graphite

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas Functionalized Graphene Nanoplatelets- HDPlas GNPs

 

HDPlas GNPs – COOH

Product: HDPlas GNPs

Plasma Process Gas: Proprietary Oxygen Based

Primary Functionality: COOH

Other Functionalities: COH, C=O, Other Oxygen

Source Material: Natural Graphite

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas GNPs – O2

Product: HDPlas GNPs

Plasma Process Gas:  Oxygen

Primary Functionality: COH

Other Functionalities: C=O, COOH, Other Oxygen

Source Material: Natural Graphite

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas GNPs – N2

Product: HDPlas GNPs

Plasma Process Gas: Nitrogen

Primary Functionality: N-H

Other Functionalities: N=H, Nx, NOx, O=C-N-H2

Source Material: Natural Graphite

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas GNPs – F

Product: HDPlas GNPs

Plasma Process Gas: Tetrafluoromethane

Primary Functionality: Fx

Other Functionalities: Not Known

Source Material: Natural Graphite

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container

 

HDPlas GNPs – NH2

Product: HDPlas GNPs

Plasma Process Gas: Nitrogen

Primary Functionality: N=H

Other Functionalities: N-H, O=C-N-H2, C ≡N              

Source Material: Natural Graphite

Form Supplied: Dry Powder

Process: Split Plasma

Packaging: Nano-suitable airtight container