Publication Beamlines Strategic Pillar
Abed, Jehad; Ahmadi, Shideh; Laverdure, Laura; Abdellah, Ahmed; O'Brien, Colin et al. (2020). Cryomilled Ni-Co-Se Enables Water Oxidation Electrocatalysts Durable at High Current Densities. Patent Number: 10.21203/rs.3.rs-85446/v1. CLS-APS Materials
Agyeman-Budu; David N.; Choudhury; Sanjukta; Coulthard et al. (2016). Germanium collimating micro-channel arrays for high resolution, high energy confocal X-ray fluorescence microscopy. Patent Number: 10.1063/1.4961132. CLS-APS
Aluri, E. R., Grosvenor, A.P. (2016). A Review of X-Ray Absorption Near-Edge Spectroscopic Studies of Pyrochlore-Type Oxides Proposed for Nuclear Materials Applications. Saskatoon, SK, Canada: University of Saskatchewan. http://dx.doi.org/10.1016/B978-0-12-409547-2.11644-0. CLS-APS Materials
Arduini, Connor; Flynn, Trevor; Paetkau, Mark; Brewer, Sharon; Donkor, Kingsley et al. (2018). Synchrotron Characterization of Metal Distributions in Soils Collected in the Greater Kamloops Region, British Columbia, Canada. Microscopy and Microanalysis 24(S2) , 514-515. 10.1017/s1431927618014794. CLS-APS, IDEAS Environment
Chen, Ziyi; Walsh, Andrew; wei, xiao; Zhu, Manzhou; Zhang, Peng et al. (2020). Site-Specific Electronic Properties of [Ag25(SR)18]- Nanoclusters by X-Ray Spectroscopy. Patent Number: 10.26434/chemrxiv.13225199.v1. CLS-APS Materials
Dogan Paktunc, Michael C. Moncur, S. Jean Birks, John J. Gibson, Yi Yi (2015). Predicting the mobilization of dissolved metals, organics and gas Predicting the mobilization of dissolved metals, organics and gas Predicting the mobilization of dissolved metals, organics and gas Predicting the mobilization of dissolved metals, organics. Canada: Integrated Water Management, Alberta Innovates – Technology Futures, CANMET Mining and Mineral Scie. http://www.geoconvention.com/archives/2015/258_GC2015_Predicting_the_mobilization_of_dissolved_metals.pdf. CLS-APS Environment
Liu, Peng; Ptacek, Carol; Blowes, David W.; Finfrock, Y. Zou (2020). Redox Mapping of Cr(VI) and Cr(III) in Biochar Particles Using Confocal Micro-X-Ray Fluorescence Imaging. . 10.46427/gold2020.1601. CLS-APS Environment
Lobacheva, O.; Goncharova, L. V.; Chavarha, M.; Sham, T. K. (2014). XANES study of Fe-implanted strontium titanate. AIP Conference Proceedings , 82-86. 10.1063/1.4870200. CLS-APS, SGM
Summers; Kelly L.; Fimognari; Nicholas; Hollings et al. (2017). Multi-modal spectroscopic imaging with synchrotron light to study mechanisms of brain disease. . 10.1117/12.2272365. CLS-APS
Yiu, Y. M.; Murphy, M. W.; Liu, L.; Hu, Y.; Sham, T. K. et al. (2014). Experimental and theoretical XANES of CdSxSe1−x nanostructures. AIP Conference Proceedings , 26-31. 10.1063/1.4870191. CLS-APS, SGM, SXRMB
24. Rafiuddin; Mohamed Ruwaid (2018). A Structural and Spectroscopic Investigation of Hydrous and Anhydrous Rare-Earth Phosphates. Supervisor: Grosvenor, Andrew Paul. SK: University of Saskatchewan. http://hdl.handle.net/10388/8350. CLS-APS Materials
44. Joseph Daniel Padmos (2015). Understanding the Structure of Silver Nanoparticles and Its Influence on Surface Reactivity. Supervisor: Zhang, Peng. NS, Canada: Dalhousie University. http://dalspace.library.dal.ca/handle/10222/64673. CLS-APS, HXMA, SXRMB
6. Stephen L. Christensen (2013). Structure and Bonding in Thiolate-Coated Au Nanostructures. Supervisor: Zhang, Peng & Chatt, Amares. NS, Canada: Dalhousie University. http://dalspace.library.dal.ca/handle/10222/21912?show=full. CLS-APS
Akhter, M.F. (2012). Cadmium Accumulation and Distribution in Lettuce and Barley. Canada, ON: University of Western Ontario. . CLS-APS
Alana Ou Wang (2020). Application of Biochar to Stabilize Mercury in Riverbank Sediments and Floodplain Soils from South River, VA under Conditions Relevant to Riverine Environments. Supervisor: Ptacek, Carol. ON: University of Waterloo. http://hdl.handle.net/10012/15416. CLS-APS Environment