Publication Beamlines Strategic Pillar
Ding, Longzhen; Wang, Yuhan; Tong, Lizhi; Liu, Na; Wang, Chao et al. (2022). N-doped biochar-catalyzed dechlorination of carbon tetrachloride in sulfide-containing aqueous solutions: Performances, mechanisms and pathways. Water Research 223, 119006. 10.1016/j.watres.2022.119006. SXRMB Environment
Earnden, Laura; Marangoni, Alejandro G.; Laredo, Thamara; Stobbs, Jarvis; Marshall, Tatianna et al. (2022). Decontamination of water co-polluted by copper, toluene and tetrahydrofuran using lauric acid. Scientific Reports 12(1) . 10.1038/s41598-022-20241-4. BXDS-IVU, BXDS-WLE Environment
Feng, Yu; Liu, Peng; Xie, Xianjun; Gan, Yiqun; Su, Chunli et al. (2022). Effect of oxidation on the release of multiple metals from industrially polluted sediments and synchrotron-based evidence of Cu–S dynamic association. Journal of Soils and Sediments 22(10) , 2827-2839. 10.1007/s11368-022-03288-8. CLS-APS, SXRMB Environment
Liang, Ying; Huang, Guohe; Li, Yongping; Yao, Yao; Xin, Xiaying et al. (2022). Photocatalytic disinfection for point-of-use water treatment using Ti3+ self-doping TiO2 nanoparticle decorated ceramic disk filter. Environmental Research 212, 113602. 10.1016/j.envres.2022.113602. VESPERS Environment
Li, Wenshuai; Liu, Xiao-Ming; Wang, Kun; Takahashi, Yoshio; Hu, Yongfeng et al. (2022). Soil potassium isotope composition during four million years of ecosystem development in Hawai‘i. Geochimica et Cosmochimica Acta 332, 57-77. 10.1016/j.gca.2022.06.025. SXRMB Environment
Rahman, Noabur; Peak, Derek; Schoenau, Jeff (2022). Antagonistic effect of copper and zinc in fertilization of spring wheat under low soil phosphorus conditions. Canadian Journal of Soil Science 102(3) . 10.1139/cjss-2021-0189. HXMA, VLS-PGM Environment
Rahman, Noabur; Schoenau, Jeff (2022). Bioavailability, Speciation, and Crop Responses to Copper, Zinc, and Boron Fertilization in South-Central Saskatchewan Soil. Agronomy 12(8) , 1837. 10.3390/agronomy12081837. HXMA, VLS-PGM Environment
Risch, Marcel; Morales, Dulce M.; Villalobos, Javier; Antipin, Denis (2022). What X‐Ray Absorption Spectroscopy Can Tell Us About the Active State of Earth‐Abundant Electrocatalysts for the Oxygen Evolution Reaction. Angewandte Chemie - International Edition . 10.1002/anie.202211949. SGM Environment
Saurette, Emily M.; Frinfrock, Y. Zou; Verbuyst, Brent; Blowes, David W.; McBeth, Joyce M. et al. (2022). Improved precision in As speciation analysis with HERFD-XANES at the As K-edge: the case of As speciation in mine waste. Journal of Synchrotron Radiation 29(5) , 1198-1208. 10.1107/s1600577522007068. CMCF-BM Environment
Wang, Zheng; An, Chunjiang; Lee, Kenneth; Chen, Xiujuan; Zhang, Baiyu et al. (2022). Physicochemical change and microparticle release from disposable gloves in the aqueous environment impacted by accelerated weathering. Science of the Total Environment 832, 154986. 10.1016/j.scitotenv.2022.154986. MID-IR Environment
Zoroufchi Benis, Khaled; Soltan, Jafar; McPhedran, Kerry N. (2022). A novel method for fabrication of a binary oxide biochar composite for oxidative adsorption of arsenite: Characterization, adsorption mechanism and mass transfer modeling. Journal of Cleaner Production 356, 131832. 10.1016/j.jclepro.2022.131832. BIOXAS, BXDS-WLE Environment
Swanson, Gaige (2022). Divergence of Iron and Manganese Oxidation State Distributions, Bonding Environments, and Mobility in Mining-Impacted Lake Sediments: Column Experiments. Supervisor: Langman, Jeff B.. Idaho, USA: University of Idaho. https://www.proquest.com/docview/2714958485. SXRMB Environment
Maciag, Bryan J. (2022). GEOCHEMISTRY OF ARSENIC IN MAGMATIC SYSTEMS WITH SOME RESULTS FOR ANTIMONY. Dalhousie University. https://dalspace.library.dal.ca/bitstream/handle/10222/81893/BryanMaciag2022.pdf?sequence=6&isAllowed=y. CLS-APS Environment
Smith, Lianna Jane DeGeer (2022). Oxidation characteristics, acid neutralization, secondary minerals, and trace elements associated with pyrrhotite oxidation in historical waste rock. Supervisor: Blowes, David. Ontario, Canada: University of Waterloo. http://hdl.handle.net/10012/18468. SXRMB Environment