Publication Beamlines Strategic Pillar
Sifat, Rahin (2018). The effect of chemical substitution on the local structure of garnet-type oxides that have nuclear waste sequestration applications. Supervisor: Grosvenor, Andrew. Saskatchewan, Canada: University of Saskatchewan. https://harvest.usask.ca/bitstream/handle/10388/11278/SIFAT-THESIS-2018.pdf?sequence=1. CLS-APS Materials
Kong, Lingyi (2017). Zinc remediation by zero-Valent iron and the associated isotope fractionation: batch experiments. University of Waterloo. https://uwspace.uwaterloo.ca/handle/10012/12397. CLS-APS Materials
Pritam Saha (2017). "Monitoring the dissolution of sparingly soluble oxide minerals at extreme temperatures and pressures using the hydrothermal diamond anvil cell”. Supervisor: Alan Anderson. Nova Scotia, Canada: St. Francis Xavier University. . CLS-APS Materials
Pritam Saha (2017). Monitoring the dissolution of sparingly soluble oxide minerals at extreme temperatures and pressures using the hydrothermal diamond anvil cell. Supervisor: Anderson, Alan. Nova Scotia, Canada: St. Francis Xavier University. . CLS-APS Materials
Marbella, Lauren Elizabeth (2016). NMR characterization of metal nanoparticle formation, structure, and performance. University of Pittsburgh. https://www.proquest.com/openview/3e91d17fdaf960aa9514ff6d59471712/1?pq-origsite=gscholar&cbl=18750. CLS-APS Materials
Cormier, Z. (2011). Inducing and Characterizing Structural Changes in RuO2.xH2O. Canada, ON: Dalhousie University. . CLS-APS, SXRMB Materials
Jehad ABED; Steven Thorpe; Edward Sargent (2025). Electrocatalysts comprising transition metals and chalcogen for oxygen evolution reactions (OER) and manufacturing thereof. Patent Number: US12234157B2. CLS-APS, SGM Materials
Qi Liu; He Zhu (2024). Nickel-rich layered oxide cathode materials for Li ion batteries. Patent Number: US11942638B2. CLS-APS, SGM Materials
Zhu Chen; Edward Sargent; David Sinton (2024). Processes and systems for the selective electrochemical reduction of co2 in acidic conditions, cathodes and catalysts used in the same. Patent Number: WO2024084288A2. CLS-APS Materials
Mehrnaz Mikhchian (2025). An investigation of the long-term aqueous corrosion behaviour of glass, crystalline ceramics, and glass-ceramic composite materials. Supervisor: Grosvenor, Andrew Paul. Saskatoon (SK, Canada): University of Saskatchewan. https://hdl.handle.net/10388/16536. CLS-APS, IDEAS, SXRMB, VLS-PGM Materials
Ozden, Adnan (2022). Energy- and Carbon-efficient CO2 Electrolysis. University of Toronto. https://tspace.library.utoronto.ca/handle/1807/129753. CLS-APS Materials
Wang, Xuchun (2022). Design and Surface Modification of Noble Metal-based Nanocatalysts. Canada: The University of Western Ontario. https://www.proquest.com/openview/0dd89b8c846d56cbb73da404b9191a98/1?pq-origsite=gscholar&cbl=18750&diss=y. CLS-APS Materials
Adair, Keegan R (2021). The Design and Characterization of Advanced Li Metal Anodes for Next-Generation Batteries. The University of Western Ontario (Canada). https://ir.lib.uwo.ca/etd/8037/. CLS-APS Materials
Li, Junjie (2021). Rational design of highly efficient electrocatalysts using atomic layer deposition: from nanoparticle to single atom. Supervisor: Sun, Xueliang. Ontario, Canada: University of Western Ontario. https://ir.lib.uwo.ca/etd/7967/. CLS-APS Materials
Huang, Zhennan (2020). In Situ TEM Studies of Multicomponent Alloy Nanoparticles. Supervisor: Shahbazian-Yassar, Reza. IL, USA: The University of Illinois at Chicago. https://www.proquest.com/openview/67c6275b0095434bcc6d8886fcb5ae31/1?pq-origsite=gscholar&cbl=18750&diss=y. CLS-APS Materials