Publication Beamlines Strategic Pillar
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
Zeitvogel; Fabian (2015). Spatially resolved analysis of the structure and composition of cell-mineral aggregates formed by Fe(II)-oxidizing bacteria and their role in heavy metal sorption processes. Supervisor: Obst, Martin. Baden-Württemberg, Germany: University of Tuebingen. . SM Environment
Vibhu Sharma (2016). Mechanism of wear and tribofilm formation with ionic liquids and ashless antiwear additives. Supervisor: Aswath, Pranesh B.. Texas, United States: The University of Texas at Arlington. . SGM, SXRMB, VLS-PGM Environment
Petrash, Daniel A. (2016). The trace metal content of modern and ancient peritidal and shallow subtidal dolomites: significance and systematics. Supervisor: Konhauser, Kurt. AB CA: University of Alberta. https://era.library.ualberta.ca/files/c9019s2509#.WD2ty30SL0w. CLS-APS, MID-IR, VESPERS Environment
Debela, Fikre Melese (2011). Stability of in situ immobilized lead and zinc in rhizosphere soil of phosphorus amended metal contaminated soils. Supervisor: Arocena, Joselito M.. British Columbia, Canada: University of Northern British Columbia. https://unbc.arcabc.ca/dissertations-and-theses/5338. HXMA Environment
Benjamin J. A. Moulton (2016). In Situ High-Pressure Structural Changes of Diopside-Anorthite (CaMgSi2O6-CaAl2Si2O8) Glasses: A Multi-spectroscopic Approach. Supervisor: Henderson, Grant S.. Ontario, Canada: University of Toronto. http://hdl.handle.net/1807/76587. SGM, VLS-PGM Environment
Tolhurst, T. (2013). An Effective Polychromatic X-ray Beam for Quantitative Analysis of Fossil Compositions. Canada, SK: University of Regina. . VESPERS Environment
Liana K.T. Stammers (2016). Geochemical Constraints of the Gold Mineralization Sources from the South Mine Complex and the Main/’04 Breaks, Macassa Mine, Kirkland Lake, Ontario. Supervisor: Banerjee, Neil R.; Van Loon, Lisa L.. ON, Canada: Western University. . CLS-APS, VESPERS Environment
Hong, Jason. K. (2012). Jarosite Occurrences in the MIL 03346 Nakhlite: Implications for Water on Mars. Supervisor: Cavell, Ronald; Gleeson, Sarah. Alberta, Canada: University of Alberta. https://doi.org/10.7939/R3RQ19. CLS-APS, VESPERS Environment
Bluemel, B. (2014). Biogeochemical Expressions of buried REE Mineralization at the Norra Kärr Alkaline Complex, southern Sweden. Canada, BC: University of Victoria. . HXMA Environment
Blowes, D.W.; Ptacek, C.J.; Jambor, J.L.; Weisener, C.G.; Paktunc, D. et al. (2014). The Geochemistry of Acid Mine Drainage. In Barbara Sherwood Lollar(Ed.), Treatise on Geochemistry. Elsevier. , 131-190 10.1016/b978-0-08-095975-7.00905-0. CLS-APS Environment
Zhao, Qian; Poulson, Simon R.; Obrist, Daniel; Sumaila, Samira; Dynes, James J. et al. (2016). Iron-bound organic carbon in forest soils: quantification and characterization. Biogeosciences 13(16) , 4777-4788. 10.5194/bg-13-4777-2016. SGM Environment
Zhang, Linjuan; Zhou, Jing; Zhang, Jianyong; Su, Jing; Zhang, Shuo et al. (2016). Extraction of local coordination structure in a low-concentration uranyl system by XANES. Journal of Synchrotron Radiation 23(3) , 758-768. 10.1107/s1600577516001910. HXMA Environment
Zhang, G. Y.; Hu, Y. F.; Xu, R. K.; Dynes, J. J.; Blyth, R. I. R. et al. (2009). Carbonate-induced structural perturbation of Al hydroxides. Clays and Clay Minerals 57(6) , 795-807. 10.1346/ccmn.2009.05706012. SGM, VLS-PGM Environment
Yang, Jianjun; Wang, Jian; Pan, Weinan; Regier, Tom; Hu, Yongfeng et al. (2016). Retention Mechanisms of Citric Acid in Ternary Kaolinite-Fe(III)-Citrate Acid Systems Using Fe K-edge EXAFS and L3,2-edge XANES Spectroscopy. Scientific Reports 6(1) , 26127. 10.1038/srep26127. SGM, SXRMB Environment