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2D Materials

2D Materials Heidelberg Instruments

Application of 1D or 2D materials with precision and accuracy, while avoiding impurities and defects in high-performance electronics, sensing, and quantum computing, as well as photonic devices, aerospace, flexible and transparent electronics for wearable technology and displays, and energy storage and water purification.  

  • NanoFrazor provides a damage-free lithography solution without charging effects or energetic beams impinging on the material surfaces.  

  • MLA series maskless aligners have a “Draw Mode” that enables the creation of an overlaying design on top of a real-time microscope image of small elements.  

​Process solutions for 2D materials from high-temperature CVD to low-temperature ALD 

  • Graphene

  • PECVD Graphene

  • 2D hBN

  • 2D MoS2 and  TMDs

  • 2D Heterostructures

  • Vertical Graphene

2D Materials Oxford Instruments
Graphene and 2D SPECS Group

Graphene and 2D-materials show electronic properties, that are promising to revolutionize micro- and nanoelectronics and many related fields. ARPES, XPS, LEEM and SPM are perfectly suited to characterize these materials. The deposition and interface formation can best be studied operando by NAP-XPS and NAP-SPM.

The first system in the market designed to provide a full-area non-destructive electrical characterization of:

  • Graphene, Thin films and other 2D materials

  • Onyx covers the gap between the macro and the nano scale tools characterizing from 0,5 mm² to large areas (m²), enhancing the industrialization of the research materials.

  • Compared to other large-area methods, such as the four-probe methods, Onyx is capable to measure the spatial distribution of the quality of the sample. Spatial resolution in the order of a few hundreds of microns enables the fast characterization of large areas of sample as opposed to microscopic methods such as Raman, SEM, and TEM.

Onyx System by Das nano
2D Materials Nano Frazor Nano Electronics Heidelberg Instruments

By utilizing thermal stimulus rather than energetic particles such as electrons or photons, sensitive electronic devices comprising 2D materials and transition metal dichalcogenides (TMDs) remain in an unharmed state. Grayscale lithography capabilities with sub-nanometer resolution allow for unique manipulation of 2D materials for electronic applications.

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