Publication Beamlines Strategic Pillar
Maciag, Bryan J.; Brenan, James M. (2020). Speciation of arsenic and antimony in basaltic magmas. Geochimica et Cosmochimica Acta 276, 198-218. 10.1016/j.gca.2020.02.022. CLS-APS, HXMA, VESPERS 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
Lounsbury, Amanda W.; Wang, Ranran; Plata, Desiree L.; Billmyer, Nicholas; Muhich, Christopher et al. (2019). Preferential adsorption of selenium oxyanions onto {1 1 0} and {0 1 2} nano-hematite facets. Journal of Colloid and Interface Science 537, 465-474. 10.1016/j.jcis.2018.11.018. CLS-APS Environment
Liu, Xin; Zhou, Jianwei; Zhou, Weiqing; Feng, Yu; Finfrock, Y. Zou et al. (2021). Efficiency and mechanisms of Sb(III/V) removal by Fe-modified biochars using X-ray absorption spectroscopy. Journal of Environmental Chemical Engineering 9(6) , 106741. 10.1016/j.jece.2021.106741. CLS-APS Environment
Liu, Wenfu; Feng, Yu; Zhong, Huan; Ptacek, Carol; Blowes, David et al. (2020). Aqua regia digestion cannot completely extract Hg from biochar: A synchrotron-based study. Environmental Pollution 265, 115002. 10.1016/j.envpol.2020.115002. CLS-APS Environment
Liu, Peng; Ptacek, Carol J.; Elena, Krista M.A.; Blowes, David W.; Gould, W. Douglas et al. (2018). Evaluation of mercury stabilization mechanisms by sulfurized biochars determined using X-ray absorption spectroscopy. Journal of Hazardous Materials 347, 114-122. 10.1016/j.jhazmat.2017.12.051. CLS-APS, SXRMB Environment
Liu, Peng; Ptacek, Carol J.; Blowes, David W.; Finfrock, Y. Zou; Steinepreis, Mark et al. (2019). A Method for Redox Mapping by Confocal Micro-X-ray Fluorescence Imaging: Using Chromium Species in a Biochar Particle as an Example. Analytical Chemistry 91(8) , 5142-5149. 10.1021/acs.analchem.8b05718. CLS-APS Environment
Liu, Peng; Ptacek, Carol J.; Blowes, David W.; Finfrock, Y. Zou; Liu, YingYing et al. (2020). Characterization of chromium species and distribution during Cr(VI) removal by biochar using confocal micro-X-ray fluorescence redox mapping and X-ray absorption spectroscopy. Environment International 134, 105216. 10.1016/j.envint.2019.105216. CLS-APS Environment
Liu, Peng; Ptacek, Carol J.; Blowes, David W.; Finfrock, Y. Zou; Gordon, Robert A. et al. (2017). Stabilization of mercury in sediment by using biochars under reducing conditions. Journal of Hazardous Materials 325, 120-128. 10.1016/j.jhazmat.2016.11.033. CLS-APS Environment
Liu, Peng; Ptacek, Carol J.; Blowes, David W.; Finfrock, Y. Zou (2019). Mercury distribution and speciation in biochar particles reacted with contaminated sediment up to 1030 days: A synchrotron-based study. Science of the Total Environment 662, 915-922. 10.1016/j.scitotenv.2019.01.148. CLS-APS, SXRMB 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
Lisa Van Loon; Neil Banerjee (2023). 14th Symposium on Mesozoic Terrestrial Ecosystems and Biota. Anatomical Record 306(S1) , 3-267. 10.1002/ar.25219. CLS-APS Environment
Li, Binrui; Liao, Peng; Liu, Peng; Wang, Dengjun; Ye, Zhihang et al. (2022). Formation, aggregation, and transport of NOM–Cr(iii) colloids in aquatic environments. Environmental Science: Nano 9(3) , 1133-1145. 10.1039/d1en00861g. CLS-APS 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
Leon, Jeffrey (2018). Metal Isotope Fractionation Associated with Cu and Zn Attenuation by Zero-Valent Iron in Anaerobic Flow-Through Cell Experiments. Supervisor: Blowes, David; Ptacek, Carol. Ontario, Canada: University of Waterloo. http://hdl.handle.net/10012/12853. CLS-APS Environment