Moorfield at Graphene 2016 next week!
If you’re off to Graphene 2016 next week, come find us at booth 3 in the exhibition. Working nanoCVD-8G and nanoETCH tools on display!
Moorfield to exhibit at Graphene 2016
Together with our Italian distributor 2M Strumenti, we will be exhibiting our unique benchtop graphene synthesis and etching products at Graphene 2016, in Genoa, 19-22 April. Come along and visit our stand for demos of operational instruments.
Versatile polymer-free graphene transfer method and applications
Zhang, G., et al. ACS Applied Materials and Interfaces 2007 DOI: 10.1021/acsami.6b00681 A new procedure for transferring graphene from growth substrates (e.g., copper foil) is described. The method involves placing post-growth substrates (produced here using a Moorfield nanoCVD-8G system) at an interface between immiscible hexane and an aqueous etching solution. The etching solution removes the […]
George Osbourne checks out Moorfield nanoETCH technology!
Leading UK newspaper the Guardian publishes photograph of UK Chancellor of the Exchequer, and Moorfield’s local MP, George Osbourne, checking out nanoETCH technology located in Prof. Andre Geim’s graphene research facilities at the University of Manchester. Check it out here.
Vertical field-effect transistor based on graphene–WS2 heterostructures for flexible and transparent electronics
Georgiou, T., et al. Nature Nanotechnology 2012 DOI: 10.1038/nnano.2012.224 Vertical field-effect transistor devices are formed by stacking the 2-dimensional materials graphene and tungsten disulphide. The unique transport mechanisms available in such devices allow for unprecedented current modulation and high ON currents. Moorfield ‘soft etching’ technology is used to prepare substrates for accepting materials, and for […]
Chaotic dirac billiard in graphene quantum dots
Ponomarenko, L. A., et al. Science 2008 DOI: 10.1126/science.1154663 Quantum dot devices of various sizes are carved from graphene. Large-scale quantum dots (>100 nm) are found to behave as conventional single-electron transistors. On the other hand, for smaller quantum dots quantum confinement is shown to have an effect. Moorfield ‘soft etching’ technology is used to […]
Detection of individual gas molecules adsorbed on graphene
Schedin, F., et al. Nature Materials 2007 DOI: 10.1038/nmat1967 Micrometre-size sensors made of graphene are shown capable of detecting when a single gas molecule attaches to the sensor’s surface. Moorfield ‘soft etching’ technology is used to prepare substrates for mechanical exfoliation of graphene, and for etching the graphene into the required (Hall bar) device structures. […]
