Reduced Graphene Oxide Products

The significant benefits of our Graphene Oxide research is in the development for us in high capacity energy storage batteries. Our research is focussing of electrically insulating metal oxide nanoparticles which are adsorbed onto reduced Graphene Oxide to increase the performance of these materials in batteries.

The energy storage capacity and cycle stability is shown to increase for iron oxide on reduced Graphene Oxide. The high surface area reduced Graphene Oxide has been made using microwaves for exfoliation and reduction of Graphene Oxide. The high surface area reduced Graphene Oxide formed is useful as an energy storage material in our supercapacitor technology.

Graphene Oxide Applications

Our graphene oxide is based on a monomolecular layer of graphite with carboxyl surface groups. We use this material to fabricate several electronic devices. This is particularly the case with our chemical sensors, transparent conductors and biosensor technology.

Our reduced Graphene Oxide is being developed in different systems designed to detect biologically relevant molecules, antibodies and biomarkers.

Engineering Biosensor Technology

We are developing a range of high quality graphene oxide products for your innovative and advanced materials research needs.

COMPOSITE MANUFACTURING

Vexon develop and manufacture composite components and structures for customers across the world. If you would like to use our manufacturing services, then please get in touch with us. We are glad to help.

Carbon Fibre Composites

We manufacture components made from advanced composite materials, including carbon, glass fibre, graphene enhanced and 3D printed composite materials.

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Biocompatable 3D Printing

This 3D Printing material is for use in a range of medical applications which are in the research phase, including implantable structures.

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Carbon Fibre 3D Printing

This 3D Printing material is suitable for making structural components. Containing 18% long carbon fibres make parts that are high strength and rigid.

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Carbon Nanotube 3D Printing

This 3D Printing material is uniquely targeted towards the 3D printing aerospace and semiconductor parts. The polymer is both highly conductive and extremely strong.

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Concrete 3D Printing

This 3D Printing material is a PLA-based filament which is based on our modified polymer formulation and contains 25% Portland cement.

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Crystal Clear 3D Printing

This 3D Printing material is a material which has a superior transparency without the PLA typical yellowish colouring.

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Ecofriendly 3D Printing

This 3D Printing material is 100% recycled and made from PET bottles that are thoroughly cleaned and shred into tiny plastic pellets.

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Graphene 3D Printing

This 3D Printing material is Graphene PLA-based that offers a volume resistivity of 0.4 ohm-cm. Great for creating 3D Printed electronic devices.

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Inconel 718 3D Printing

This 3D Printing material is based on SLS Inconel 718 power and is for projects that require services in extremely high temperature environments.

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Kevlar 3D Printing

This 3D Printing material is perfect for any structural part, defence applications, engineering components and parts that require low density.

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Metal 3D Printing

This 3D Printing material is a blend of traditional PLA and 5% fine powder stainless steel finings. Our dense 3D prints result in heavy parts that look like steel.

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Nylon 3D Printing

This 3D Printing material is almost indestructible and is incredibly strong, durable and a highly versatile 3D printing material.

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Titanium 3D Printing

This 3D Printing material is based on SLS Titanium powder and is for advanced 3D printed aerospace or medical applications that require high strength.

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Advanced Composite Materials

We create advanced components manufactured using traditional handcrafted composite fabrications and 3D Printing of advanced composite materials and alloys. Each is made using advanced formulations, including ceramics, Inconel, composites, biomaterials, electrically conductive and metallic materials.

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Carbon Fibre Composites

We create advanced carbon fibre components manufactured using high quality carbon fibre fabric and resins. Our experienced team have the ability to create carbon fibre components inhouse at our facility in Daikin Texas Technology Park, Houston USA.

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Composite Technologies

We create a wide range of carbon fibre and glass fibre structures for customers in the automotive, aerospace, space and defence sectors. These components are handcrafted using the best means of manufacture and composite engineering.

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3D Printing Composites

We create advanced components manufactured using 3D Printing technology to create advanced composite and alloy structures. We 3D Print parts made from ceramics, Inconel, composites, biomaterials, electrically conductive and metallic materials.