Sara E. C. Dale scite author profile

The rhenium and technetium diselenides and disulfides are van der Waals layered semiconductors in some respects similar to more well-known transition metal dichalcogenides (TMD) such as molybdenum sulfide. However, their symmetry is lower, consisting only of an inversion center, so that turning a layer upside-down (that is, applying a C2 rotation about an in-plane axis) is not a symmetry operation, but reverses the sign of the angle between the two nonequivalent in-plane crystallographic axes. A given layer thus can be placed on a substrate in two symmetrically nonequivalent (but energetically similar) ways. This has consequences for the exploitation of the anisotropic properties of these materials in TMD heterostructures and is expected to lead to a new source of domain structure in large-area layer growth. We produced few-layer ReS2 and ReSe2 samples with controlled "up" or "down" orientations by micromechanical cleavage and we show how polarized Raman microscopy can be used to distinguish these two orientations, thus establishing Raman as an essential tool for the characterization of large-area layers.

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Generator-collector double electrode systems: A review

Barnes

Lewis

Dale

et al. 2012

Analyst

107

101

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Fabrication and electrocatalytic properties of polyaniline/Pt nanoparticle composites

et al. 2004

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Robotic microscopy for everyone: the OpenFlexure microscope

Collins

Knapper

Stirling

et al. 2020

Biomed. Opt. Express

123

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Optical microscopes are an essential tool for both the detection of disease in clinics, and for scientific analysis. However, in much of the world access to high-performance microscopy is limited by both the upfront cost and maintenance cost of the equipment. Here we present an open-source, 3D-printed, and fully-automated laboratory microscope, with motorised sample positioning and focus control. The microscope is highly customisable, with a number of options readily available including trans-and epi-illumination, polarisation contrast imaging, and epi-florescence imaging. The OpenFlexure microscope has been designed to enable low-volume manufacturing and maintenance by local personnel, vastly increasing accessibility. We have produced over 100 microscopes in Tanzania and Kenya for educational, scientific, and clinical applications, demonstrating that local manufacturing can be a viable alternative to international supply chains that can often be costly, slow, and unreliable.

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Sara E. C. Dale

Rhenium Dichalcogenides: Layered Semiconductors with Two Vertical Orientations

Generator-collector double electrode systems: A review

Fabrication and electrocatalytic properties of polyaniline/Pt nanoparticle composites

Robotic microscopy for everyone: the OpenFlexure microscope

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