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Applications of Micron Resolution Chemical Imaging using Fast, Efficient X-ray Fluorescence Microscopy

  • D. Paterson (a1)
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Abstract
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Corresponding author
* Corresponding author, david.paterson@synchrotron.org.au
References
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[1] Siddons, D. P, et al., AIP Conference Proceedings 2004 705, 953.
[2] Kirkham, R., et al, AIP Conference Proceedings 1234 2010 240.
[3] Siddons, D. P., et al, J. of Physics: Conf. Series 499 2014 012001.
[4] Paterson, D., et al, AIP Conference Proceedings 1365 2011 219.
[5] de Jonge, M. D., et al, Optics Express 25 2017 23424.
[6] Carey, A.-M., et al 402 2012 3275.
[7] Etschmann, B. E., et al, American Mineralogist 95 2010 884.
[8] Etschmann, B. E., et al, Environmental Chemistry 11 2014 341.
[9] Kopittke, P. M., et al, New Phytologist 201 2014 1251.
[10] Blamey, F. P. C., et al, New Phytologist 217 2018 1146.
[11] Wang, P., et al, Environmental Pollution 218 2016 835.
[12] Monico, L., et al, J. of Analytical Atomic Spectrometry 30 2015 613.
[13] James, S. A., et al, Scientific Reports 6 2016 20350.
[14] James, S. A., et al., Chem. Comm 52 2016 11834.
[15] Wang, P., et al, Journal of Experimental Botany 66 2015 4795.
[16] De Brier, N., et al, Plant, Cell & Environment 39 2016 1835.
[17] This research was undertaken on the XFM and XAS beamlines at the Australian Synchrotron, part of ANSTO.
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Microscopy and Microanalysis
  • ISSN: 1431-9276
  • EISSN: 1435-8115
  • URL: /core/journals/microscopy-and-microanalysis
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