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2D Semiconductor Materials


2D materials can broadly be grouped by their properties and potential applications. They are materials which consist of atomically thin layers that are weakly bonded to one another by van de Waals forces.

Our collection offers high quality, low cost 2D materials in crystal, powder, or film form.

Jump to: 2D Material Collections | Features and Applications | Resources and Support

Browse 2D Materials


Related categories: low dimensional materials, nanodots and quantum dots, carbon nanotubes

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2D Materials by Type


Black Phosphorus Collection

Black Phosphorus

Black Phosphorus

Explore the unique properties of black phosphorus in crystal or powder forms.

Molybdenum Disulfide (MoS2) Collection

Molybdenum Disulfide

Molybdenum Disulfide (MoS2)

Browse our MoS2 powders, single crystals, and films.

Graphene Collection

Graphene

Graphene Materials

For high purity graphene materials, take a look at our varied collection.

Tungsten Disulfide

Tungsten Disulfide

One of the most studied 2D materials.

Hexagonal Boron Nitride

Hexagonal Boron Nitride

Also known as "white graphite" because of its color and graphite-like properties.

Key Features and Applications


  • From 2D semiconductors in optoelectronics and nanotechnology to flexible electrodes, energy storage and anti-corrosion coatings, our 2D materials – including graphene and molybdenum disulfide – offer a broad range of applications.
  • Explore potential uses in groundbreaking biomedical applications such as tissue engineering, sensors, and drug deliveries, as well as advanced aerospace applications.
  • Graphene and its derivatives not only boast extraordinary properties but also come at a relatively low cost, opening new avenues for novel functionalities and product enhancement.
  • Dive into the world of magnetic 2D materials, like the highly studied iron phosphorus trisulfide, often referred to as 'magnetic graphene'.
Perform electrical and optical measurements with platinum FET test chips, optimized for 2D materials

More on 2D Materials

Interest in 2D materials has increased dramatically since the successful mechanical exfoliation of graphene in 2004 by Novoselov and Geim.

2D materials can be created from a bulk material via several different methods, the simplest of which is mechanical exfoliation. Also known as the Scotch-tape method, the weak weakly van der Waals forces that bond the single-atom-thick layers in the material together can be overcome with a piece of sticky tape. More sophisticated methods like chemical vapour deposition can be used for larger and more uniform 2D flakes.

Resources and Support


Introduction to 2D Materials Introduction to 2D Materials

The foundation of technology is the understanding of material systems. Specific material properties are required depending on the application.

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Viscoelastic Transfer of 2D Material Using PDMS Viscoelastic Transfer of 2D Material Using PDMS

Viscoelastic transfer using polydimethylsiloxane (PDMS) stamps is one of the methods used for the deterministic placement of 2D materials and the fabrication of van der Waals heterostructures.

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Molybdenum Disulfide Molybdenum Disulfide (MoS2): Theory & Applications

Molybdenum disulfide belongs to a class of materials called 'transition metal dichalcogenides'. Materials in this class have the chemical formula MX2, where M is a transition metal atom and X is a chalcogen.

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Reducing Graphene Oxide to Graphene Using Environmentally Safe Materials Reducing Graphene Oxide to Graphene Using Environmentally Safe Materials

Graphene has many potential electronic, optoelectronic and biological uses. However, graphene itself is non-soluble, and this makes it very difficult to deposit from solution.

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Viscoelastic Transfer of 2D Material Using PDMS Viscoelastic Transfer of 2D Material Using PDMS

Viscoelastic transfer using polydimethylsiloxane (PDMS) stamps is one of the methods used for the deterministic placement of 2D materials and the fabrication of van der Waals heterostructures.

Read more...
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