Matthew C. Veale scite author profile

We report the development of laboratory based hyperspectral X-ray computed tomography which allows the internal elemental chemistry of an object to be reconstructed and visualised in three dimensions. The method employs a spectroscopic X-ray imaging detector with sufficient energy resolution to distinguish individual elemental absorption edges. Elemental distributions can then be made by K-edge subtraction, or alternatively by voxel-wise spectral fitting to give relative atomic concentrations. We demonstrate its application to two material systems: studying the distribution of catalyst material on porous substrates for industrial scale chemical processing; and mapping of minerals and inclusion phases inside a mineralised ore sample. The method makes use of a standard laboratory X-ray source with measurement times similar to that required for conventional computed tomography.

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Chromium compensated gallium arsenide detectors for X-ray and γ-ray spectroscopic imaging

Veale

Bell

Duarte

et al. 2014

Nuclear Instruments and Methods in Physics Research Section A:

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Matthew C. Veale

Measurements of charge sharing in small pixel CdTe detectors

3D chemical imaging in the laboratory by hyperspectral X-ray computed tomography

Chromium compensated gallium arsenide detectors for X-ray and γ-ray spectroscopic imaging

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