Abstract
New energy, transport, computer and telecommunication technologies require an increasing supply of rare earth elements (REEs). As a consequence, adequate and robust detection methods become essential for the exploration and discovery of new deposits, the improved characterization of existing deposits and the future recycling of today’s high-tech products. Within this paper, we investigate the potential of combining passive reflectance (imaging and point sampling) with laser stimulated luminescence (point sampling) spectroscopic measurements across the visible, near and shortwave infrared for REE detection in non-invasive near-field mineral exploration. We analyse natural REE-bearing mineral samples from main REE-deposits around the world and focus on challenges such as the discrimination of overlapping spectroscopic features and the influence of the mineral type on detectability, feature position and mineral matrix luminescence. We demonstrate that the cross-validation of results from both methods increases the robustness and sensitivity, provides the potential for semi-quantification and enables the time- and cost-efficient detection of economically important REE, including Ce, Pr, Nd, Sm, Eu, Dy, Er, Yb and potentially also Ho and Tm.
Highlights
Rare earth elements (REE) are a group of 17 metallic elements, comprising the lanthanoid group, yttrium and scandium
Common approaches for the detection of REE deposits in remote sensing rely on indirect mapping of the host lithology or associated structural features from air- or space-borne data [7,8,9]
Our study outlines the strengths of combining reflectance and PL spectroscopy for the detection of REE in natural minerals
Summary
Rare earth elements (REE) are a group of 17 metallic elements, comprising the lanthanoid group, yttrium and scandium. With their valuable physical and chemical characteristics such as unique magnetic, phosphorescent and catalytic properties, they represent crucial components of many nowadays high-tech consumer products and green technologies. Due to their unique characteristics and both globally and element-wise inhomogeneous occurrence, REE were included in the European Commission’s Critical Raw Materials list published in 2014 [1] and updated in.
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