Our Products
Our product range contains a wide range of Graphene Silver Nanowires, Ultra Highly Concentrated Single-Layer Graphene Oxide Solution, Graphene Aerogel, CVD Graphene TEM Grids and Tungsten Disulfide Micron
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Additional Information:
Packaging Details : seal apck in bottle
Delivery Time : 25-30 days
Monolayer graphene film is grown on Cu foil via CVD process , then transferred onto the Silver Nanowires/PET (Polyethylene terephthalate) substrate. The graphene film is polycrystalline, i.e. it consists of grains with different crystallographic orientation. The graphene film is continuous, with occasional holes and cracks.
Graphene aerogel is one of the world’s lightest materials, with an extraordinarily low densityThis low density, in combination with the hydrophobic properties of graphene sheets, makes graphene aerogel a promising candidate for oil absorptionThe capacity of absorption approaches several hundred times (or two orders of magnitude) higher than that of commercially-available materials for environmental cleanup.
Graphene aerogel is also ideal for energy storage applications due to its high electrical conductivity, extremely high surface area, and superior mechanical propertiesFurthermore, batteries constructed using graphene aerogel can be very small while providing significant power.
Graphene aerogel is made by the reduction of our Graphene Oxide Paste.
Applications:
75mg/100mg-Round Shape:
Diameter: 2.3 cm (0.9 inches)Height: 1.5cm (0.6 inches)
850mg-Rectangular Shape:
Ultrathin CVD Graphene grids provide the ideal specimen support to achieve high resolution data in TEM imaging making them an ideal choice many TEM applications such as:
CVD Graphene grids can be used for the applications:
Anode and Cathode Gas Diffusion Electrodes (GDE) for an electrochemical device consist of catalyst loaded onto a gas diffusion layer (GDL). The mostly commonly used catalysts include carbon supported Platinum and Platinum/Ruthenium for the best catalyst dispersion and utilization for PEM Fuel Cells. Electrodes for a fuel cell applications are generally hydrophobic to reduce flooding issue during fuel cell operation.
Platinum Based Electrode
Platinum Ruthenium Based Electrode
Alkaline Electrode
Carbon Dioxide Electrode
Water Electrode
Clearance Electrodes
Additional Information:
Packaging Details : cover packed
Delivery Time : 25-30 days
Platinum Based Catalysts Platinum Ruthenium Based Catalysts Palladium Based Catalysts Iridium Based Catalysts Other Catalysts Carbon Powders Catalyst Additives
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Packaging Details : seal pack in bottle
Delivery Time : 25-30 days
Nafion PFSA Polymer Dispersions Teflon Dispersions Fumion Dispersion Sustainion Ionomer Orion Polymer Dispersions Solvay Aquivion PFSA Dispersions Xergy Dispersions/Solutions Versogen Dispersions
Platinum Based Electrode Platinum Ruthenium Based Electrode Alkaline Electrode Carbon Dioxide Electrode Water Electrode Clearance Electrodes
Additional Information:
Packaging Details : tight pack
Delivery Time : 25-30 days
Teflon Gaskets Silicone Gaskets EPDM Rubber Gaskets Mylar Laminate Gaskets Kapton / Polyimide Gaskets Natural Rubber Gaskets Chemical-Resistant Rubber Gasket
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Packaging Details : closely packed
Delivery Time : 25-30 days
FuMA-Tech Membranes Sustainion Membranes Orion Polymer Membranes Xergy Membranes Solvay Aquivion PFSA Membranes Anion Exchange Membranes Cation Exchange Membranes Bipolar Membranes Nafion Beads Nafion Tubing Porex Membrane Pre-Cleaning Separator Sheets Solvay Aquivion PFSF Pellets Solvay Aquivion PFSA Powders Versogen AEMs Chlor-alkali Production Membranes
Additional Information:
Packaging Details : tight pack
Delivery Time : 25-30 days
Graphite Plates End Plates Hot-Press Plates
Additional Information:
Packaging Details : in a box
Delivery Time : 25-30 days
G-HFCS-10W6V (10 W Hydrogen Fuel Cell Power Generator) G-HFCS-20W12V (20 W Hydrogen Fuel Cell Power Generator) G-HFCS-30W6V (30 W Hydrogen Fuel Cell Power Generator) G-HFCS-60W (60 W Hydrogen Fuel Cell Power Generator) G-HFCS-100W12V (100 W Hydrogen Fuel Cell Power Generator) G-HFCS-200W15V (200 W Hydrogen Fuel Cell Power Generator) G-HFCS-300W12V (300 W Hydrogen Fuel Cell Power Generator) G-HFCS-600W24V (600 W Hydrogen Fuel Cell Power Generator) G-HFCS-1kW36V (1kW Hydrogen Fuel Cell Power Generator) G-HFCS-2kW25V (2kW Hydrogen Fuel Cell Power Generator) G-HFCS-3kW48V (3kW Hydrogen Fuel Cell Power Generator) G-HFCS-5kW72V (5kW Hydrogen Fuel Cell Power Generator) G-HFCS-6kW (6kW Hydrogen Fuel Cell Power Generator)
Additional Information:
Packaging Details : in a box
Delivery Time : 6-8 weeks
Purity: 99% Particle size: 10 micron
Excitonic insulators are novel material systems exhibiting correlated electronic phases.
Our High-Quality Pure Graphene Oxide Paste is significantly more concentrated than Graphene Oxide solutions. The remarkably high concentration makes it ideal for creating various structures, coatings, and inks.
One can also easily make GO solutions of desired concentration or GO paper. There is no lengthy sonication or damage to the flakes when compared to sonicating solid dry powder.
Graphene Oxide paste can be deposited on any substrate using a brush or roll.
Applications:
Our monolayer graphene on SiO/Si (fully covered) is a bidimensional material produced by CVD and transferred to a circular substrate of SiO/Si (90nm) by a wet transfer process. We consider it to be a benchmark product in the graphene market – not only for its excellent quality, but also for its shape, size and number of applications.”
FET Electron Mobility on Al2O3 passivated SiO2/Si: 6900 cm2 /Vs (doi: http://dx.doi.org/10.1063/1.4972847)
FET Electron Mobility on SiO/Si: 3760 cm2/Vs DOI: https://doi.org/10.1103/PhysRevLett.119.066802
Available Sizes:
Processed in Clean Room Class 1000
Our monolayer graphene on SiO/Si (fully covered) is a bidimensional material produced by CVD and transferred to a circular substrate of SiO/Si (300nm) by a wet transfer process. We consider it to be a benchmark product in the graphene market – not only for its excellent quality, but also for its shape, size and number of applications.”
FET Electron Mobility on Al2O3 passivated SiO2/Si: 6900 cm2 /Vs (doi: http://dx.doi.org/10.1063/1.4972847)
FET Electron Mobility on SiO/Si: 3760 cm2/Vs DOI: https://doi.org/10.1103/PhysRevLett.119.066802
Feature
Description:
Available Sizes:
Additional Information:
Packaging Details : seal pack in box
Delivery Time : 25-30 days
Monolayer Graphene on Cu with PMMA Coating – Processed in Clean Room Class 1000
A single-layer graphene film on a copper substrate. This product is provided with a PMMA coating on top of the Graphene in order ease the transfer process and to avoid contamination. It’s a high quality product, with a great homogeneity, and it is ideal for R&D departments and universities.
FET Electron Mobility on Al2O3 passivated SiO2/Si: 6900 cm2 /Vs (doi: http://dx.doi.org/10.1063/1.4972847)
FET Electron Mobility on SiO2/Si: 3760 cm2/Vs DOI: https://doi.org/10.1103/PhysRevLett.119.066802
Available Sizes:
G6E-SG adhesive performs two primary functions: First, conductive adhesives form joints with sufficient strength to bond two surfaces together, and second, an electrical interconnection forms between the two bonded surfacesTraditional epoxy materials tend to be brittle and are prone to mechanical failureGraphene fillers add superior durability, fatigue and crack resistance in addition to low electrical resistanceG6E-SG can cure at room temperature or more rapidly at elevated temperaturesThe optimum cure rate is 24 hours at 25°C followed by 3 hours at 80°CG6E-SG has a paste like consistency after mixing and bonds well to a wide variety of substrates including metals, composites, ceramics, and glass.
G6E-SG can cure at room temperature or more rapidly at elevated temperaturesThe optimum cure rate is 24 hours at 25°C followed by 3 hours at 80°CG6E-SG™ has a paste like consistency after mixing and bonds well to a wide variety of substrates including metals, composites, ceramics, and glass.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when product is cured at one of the following rates: 24 hours @ 25°C, 3 hours @ 80°C or 1 hour @ 150°C
Our Conductive Carbon Filled G6E-HTC is a two component electrically conductive epoxy developed for high performance, bonding, sealing and coatingG6E-HTC Epoxy is ideal for applications that require high-temperature (up to 315°C/600 F) processes with excellent moisture and chemical resistance propertiesA proprietary mix of high-performance carbon fillers enhance the electrical properties of the epoxy.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when the product is cured at one of the following schedules: 4 hours @ 150°C (302 F)For optimum properties, post cure for 1-2 hours @ 180°C (350 F).
G6E-HTSG is a two-component electrically conductive adhesive that is engineered to combine bond strength and high electrical conductivityThe epoxy composite is based on the mixture of graphene and silver particlesThe graphene nanoparticles increase the electrical conductivity of the epoxy and enhance the strength of the material and prevent the formation of cracks, improving the durability of the bondThis is especially important for bonding dissimilar materials subjected to the temperature variations and shocks.
The G6E-HTSG resin works up to 316°C (600 F) and demonstrates excellent adhesion to a variety of materials including plastics, metals, glass and ceramics.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when the product is cured at one of the following schedules: 4 hours @ 150°C (302 F). For optimum properties, post cure for 1-2 hours @ 180°C (350 F).
G6E-RTSG epoxy is developed primarily for applications that require curing at room temperature. Room temperature curing eliminates the necessity for a heating oven. This allows easier and safer bond/connection of conductive components or materials. This epoxy is also formulated with proprietary nanomaterials and fillers to provide low electrical resistivity.
G6E-RTSG epoxy also incorporates a proprietary graphene additive to enhance the crack resistance of the epoxy adhesive. G6E-RTSG epoxy has outstanding electrical conductivity and is ideal for applications involving manufacture or repair of conductive and temperature sensitive components. Uses for G6E-RTSG epoxy include cold solder replacement applications, printed circuit board, EMI / RFI shielding assembly/repair, etc.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when the product is cured at one of the following schedules: 4 hours @ 25°C (77 F), 30 mins @ 60°C (140 F) or 10 mins @ 150 °C (302 F)
Conductive epoxies can be used to form an electrically conductive bond between dissimilar materials eliminating the need for solderingTraditional silver-based epoxy materials require up to 80% weight load of silver fillers and as a result tend to be costly, brittle and prone to mechanical failure.
Silver/Carbon Epoxy G6E-NS10 is a two component adhesive for high performance bonding, sealing and coating purposesG6E-NS10 is intended to be cured at elevated temperaturesIt can cure at room temperature in 60 hours or much more rapidly at elevated temperaturesRecommended curing temperature is 150°CVolume resistivity of as low as 0.005 Ω·cm can be achieved under optimum curing conditions.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when product is cured at one of the following parameters: 60 hours @ 25°C, 3 hours @ 70°C or 1 hour @ 150°C
Our Conductive High-Temperature Silver/Carbon G6E-HTNS Epoxy has been developed for applications that require high-temperature operation (up to 316°C/600 F), excellent moisture and chemical resistanceOur G6E-NS series of epoxies has been developed based on advanced proprietary technology that requires less silver content to be at par with leading silver based epoxies in terms of electrical propertiesThis improvement makes G6E-NS less dense, more flexible, and allows for stronger adhesion to the target substrateCarbon fillers add superior durability, fatigue and crack resistance along with low electrical resistance.
G6E-HTNS is a two-component electrically conductive adhesive that is engineered to combine bond strength and high electrical conductivityThe epoxy composite is based on the nanocarbon mixture and silver particlesThe G6E-HTNS resin works in high temperature and demonstrates excellent adhesion to a variety of materials including plastics, metals, glass and ceramicsIt offers superb resistance to moisture, solvents and oxidants as well as exceptional durabilityThe G6E-HTNS adhesive can be used as a solder replacement for applications where heating the component is desirable.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when the product is cured at one of the following schedules: 4 hours @ 150°C (302 F)For optimum properties, post cure for 1-2 hours @ 180°C (350 F).
Our Room Temperature Curable Carbon Filled Electrically Conductive Epoxy G6E-RTC is developed and formulated primarily for applications requiring curing at ambient room temperatureG6E-RTC epoxy is formulated with proprietary nanomaterials and fillers to provide its performance characteristicsRoom temperature curing eliminates the need for heating items to allow easier and safer connection of conductive components or materialsG6E-RTC epoxy is an ideal choice for applications involving heat sensitivityG6E-RTC epoxy is low cost (compared to silver), non-metallic with good electrical conductivity characteristics.
G6E-RTC epoxy is ideal for applications involving manufacture or repair of conductive or temperature sensitive componentsIdeal uses for G6E-RTC epoxy include printed circuit board and EMI/RFI shielding assembly and repair, and many other similar applications.
KEY FEATURES:
CURING INSTRUCTIONS: Best results are obtained when the product is cured at one of the following schedules: 4 hours @ 22°C (72 F), 30 mins @ 60°C (140 F) or 10 mins @ 150 °C (302 F)
The Reduced Graphene Oxide Foam boasts a low density of approximately 20 mg/cm3This ultralight material can remarkably hold up to 3, 500%-8, 000% of its own weight of organic solvents and oils, all while being unaffected by waterThe overlapping of RGO flakes form a mechanically robust foam with excellent electrical conductivity.
Applications: