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to interpret remote-sensing observations of icy moons. You will join an interdisciplinary and international team that integrates laboratory astrochemistry, spectroscopy, quantum chemistry, radiative-transfer
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quantification of mineral dissolution and deposition reactions. These experiments will employ advanced optical or spectroscopic techniques, such as Raman spectroscopy. The experimental data generated will serve
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infrared and ultraviolet/visible spectroscopy, optical microscopy, and X-ray fluorescence as well as data science skills. A strong interest in art conservation and art history, in particular, Chinese
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work under the supervision of Prof. Stam Sotiropoulos and Prof. Markus Kaiser and their established teams (https://conilab.nottingham.ac.uk https://www.dynamic-connectome.org/ ) in using brain MRI and
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x-ray photoemission spectroscopy. This includes a newly established near-ambient-pressure XPS facility (NAP-XPS). In the MAGNESIS project we will specifically work towards understanding and
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of these materials. Experimentally, these structural and dynamical properties can be vigorously investigated with neutron spectroscopy (INS and QENS), but a formidable task is to study the behavior of the materials
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fertilizer formulas. Characterize produced fertilizer formulas using various physicochemical and analytical tools such as spectroscopy, microscopy, porosity analysis, to assess structure-property relationships
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schools in the world. For more details, please view https://www.ntu.edu.sg/mae/research . The School of Mechanical and Aerospace Engineering (MAE) is seeking to hire a Research Fellow To support the
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their structural characterization using electron microscopy. The nanoreactors will be functionally characterized by spectro-electrochemical methods and time-resolved optical spectroscopy to determine the
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irradiated materials. This work will be under the supervision of Prof. Enrique Jimenez-Melero, UKAEA Joint Chair in Materials for Fusion (https://www.birmingham.ac.uk/staff/profiles/metallurgy/jimenez-melero