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
Zhi Liang Dong (2021). X-ray Absorption Spectroscopy, and Optical Luminescence Studies of Undoped and P-doped ZnO Nano/microparticles. Supervisor: Sham, Tsun-Kong. Canada: The University of Western Ontario. https://ir.lib.uwo.ca/etd/8052. CLS-APS, SGM, SXRMB, VLS-PGM Materials
G. Donato (2019). Development of glass-ceramic composites by one-step synthesis methods. Supervisor: Grosvenor, Andrew. SK, Canada: University of Saskatoon. . 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
Desaunoy; Laura Marie (2018). Investigating the geochemistry of selenium in the residual from biologically treated mine-impacted water. Supervisor: Kirste, Dirk. BC: Simon Fraser University. http://summit.sfu.ca/system/files/iritems1/17958/etd10633_LDesaunoy.pdf. CLS-APS, VESPERS 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
Cormier, Z. (2011). Inducing and Characterizing Structural Changes in RuO2.xH2O. Canada, ON: Dalhousie University. . CLS-APS, SXRMB Materials
Darawsheh, Mohanad D., Jaime Mazarío, Christian W. Lopes, Mónica Giménez‐Marqués, Marcelo E. Domine, Debora M. Meira, Jordan Martínez, Guillermo Minguez Espallargas, Pascual Oña‐Burgos (2020). MOF-Mediated Synthesis of Supported Fe-doped Pd Nanoparticles under Mild Conditions for Magnetically Recoverable Catalysis. Patent Number: 10.26434/chemrxiv.12151809.v1. CLS-APS Materials
Yiu; Yun Mui (2016). Techniques for Structural Investigations (Theory and Experimental). In Gurinder Kaur Ahluwalia(Ed.), Applications of Chalcogenides: S, Se, and Te. Springer. , 61-104 10.1007/978-3-319-41190-3_2. CLS-APS, SGM, SXRMB, VLS-PGM Materials
Ni, Weiyan; Liang, Yongxiang; Cao, Yufei; Chen, Zhu; Miao, Rui Kai et al. (2026). Small alkali cations direct CO electroreduction to hydrocarbons rather than oxygenates. Nature Chemistry . 10.1038/s41557-025-02061-x. CLS-APS, SXRMB Materials
Zhang, Lydia; Chen, Ziyi; Walsh, Andrew; Zhang, Peng (2025). Site-specific bonding analysis of Pt- and Pd-doped Au 25 (SR) 18 nanoclusters using EXAFS simulations. Canadian Journal of Chemistry . 10.1139/cjc-2025-0172. CLS-APS Materials
Huang, Juanjuan; Tornheim, Adam P.; Shi, Xianbo; Wolfman, Mark; Chen, Yanna et al. (2025). Dispersive X-ray absorption spectroscopy using independent grazing-incidence focusing and convexly bent Bragg-crystal dispersing optics. Journal of Synchrotron Radiation 32(4) , 1068-1084. 10.1107/s1600577525004953. CLS-APS Materials
Chen, Yuanjun; Wang, Xinyue; Li, Xiao-Yan; Miao, Rui Kai; Dong, Juncai et al. (2025). Electrified synthesis of n-propanol using a dilute alloy catalyst. Nature Catalysis 8(3) , 239-247. 10.1038/s41929-025-01301-0. CLS-APS Materials
Jeong, Eun-Suk; Han, Sang-Wook (2026). Can artificial intelligence techniques replace human labor in EXAFS data analysis?. Current Applied Physics 84, 1-11. 10.1016/j.cap.2025.11.015. CLS-APS Materials
Wang, Lei; López-Estrada, Omar; Lu, Siyan; Du, Cheng; Soni, Aman et al. (2026). Confinement Reconstruction Unlocks Stable Ru Single Atom-Doped IrO x Anodes for Long-Term High-Rate CO 2 Electrolysis. ACS Catalysis . 10.1021/acscatal.5c06756. CLS-APS, FAR-IR, SM Materials