Publication Beamlines Strategic Pillar
Turnbull, Matthew J.; Yiu, Yun Mui; Goldman, Maxwell; Sham, Tsun-Kong; Ding, Zhifeng et al. (2022). Favorable Bonding and Band Structures of Cu2ZnSnS4 and CdS Films and Their Photovoltaic Interfaces. ACS Applied Materials and Interfaces 14(28) . 10.1021/acsami.2c06892. CLS-APS, VLS-PGM Materials
Van Loon, Lisa L.; Finfrock, Y. Zou; Meira, Debora M.; Burgess, R. W.; Bevan, George et al. (2025). Finding a needle in a haystack: quantitative HERFD-XRF imaging and HERFD-XANES characterization of trace platinum in gold solidi from the Late Roman and Byzantine Empires. Journal of Analytical Atomic Spectrometry . 10.1039/d4ja00281d. CLS-APS Materials
Vrublevskiy, Dmitry (2023). Order-disorder competition in the Sc2VO5+δ system. Review and experimental pursuit of A3+2VO5 and Sc2VO5+δ-inspired solid phases. University of Manitoba. http://hdl.handle.net/1993/37160. CLS-APS Materials
Wang, Lei; Jana, Subhajit; Wu, Chengqian; Chen, Yanna; Li, Xiaodong et al. (2025). Grain Boundary-Engineered Cu 2 O for Selective CO 2 -to-Acetate Conversion. Energy and Fuels 39(48) , 22797-22805. 10.1021/acs.energyfuels.5c05105. CLS-APS Materials
Wang, Lei; Jana, Subhajit; Wu, Chengqian; Chen, Yanna; Zhang, Lidong et al. (2026). Microdomain tandem catalysis for efficient CO2-to-C2+ conversion at industrial current densities. Journal of Colloid and Interface Science 702, 138975. 10.1016/j.jcis.2025.138975. CLS-APS, FAR-IR 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
Wang, Qianqian; Cao, Min; Fan, Liming; Duchesne, Paul N.; Wang, Pengfei et al. (2022). Effects of penta‐coordinated Al3+ sites and Ni defective sites on Ni/Al2O3 for CO methanation. AIChE Journal 69(5) . 10.1002/aic.17998. CLS-APS Materials
Wang, Tianning; Jiao, Yonghong; He, Mengchang; Peng, Xianjia; Liu, Peng et al. (2023). Efficient removal of antimony by a facile liquid-controlled strategy reinforced hematite-spinel (Fe2O3-MnFe2O4) composite: construction, simulation and practical evaluation. Chemical Engineering Journal 451, 138974. 10.1016/j.cej.2022.138974. 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
Wang, Yaya; Wen, Yunzhou; Cheng, Yumeng; Chen, Xinhong; Zhuansun, Mengjiao et al. (2023). Enriched electrophilic oxygen species facilitate acidic oxygen evolution on Ru-Mo binary oxide catalysts. Nano Research . 10.1007/s12274-023-5956-8. CLS-APS Materials
Wei, Wei; Du, Cheng; Ge, Jiawei; Wang, Xiang; Chen, Zuolong et al. (2025). Bio‐Inspired Cascade Photocatalysis on Fe Single‐Atom Carbon Nitride Upcycles Plastic Wastes for Effective Acetic Acid Production. Advanced Energy Materials . 10.1002/aenm.202505453. CLS-APS, FAR-IR, HXMA, MID-IR, SXRMB Materials
Wu, Zhen-Yu; Chen, Feng-Yang; Li, Boyang; Yu, Shen-Wei; Finfrock, Y. Zou et al. (2022). Non-iridium-based electrocatalyst for durable acidic oxygen evolution reaction in proton exchange membrane water electrolysis. Nature Materials 22(1) , 100-108. 10.1038/s41563-022-01380-5. CLS-APS Materials
Wu, Zhiyi; Shen, Jiahui; Li, Chaoran; Zhang, Chengcheng; Feng, Kai et al. (2022). Mo2TiC2 MXene-Supported Ru Clusters for Efficient Photothermal Reverse Water–Gas Shift. ACS Nano 17(2) , 1550-1559. 10.1021/acsnano.2c10707. CLS-APS Materials
Xie, Shiwei; Li, Chang; Zhan, Hui; Shao, Wei; Zhao, Yuanxin et al. (2023). Anoxic iron electrocoagulation automatically modulates dissolved oxygen and pH for fast reductive decomplexation and precipitation of Cu(II)-EDTA: The critical role of dissolved Fe(II). Journal of Hazardous Materials 442, 130069. 10.1016/j.jhazmat.2022.130069. CLS-APS Materials
Xu, Jiabin; Feng, Kun; Lu, Cheng; Wang, Xuchun; Chen, Jiatang et al. (2023). Atomically Dispersed Mg–N–C Material Supported Highly Crystalline Pt3Mg Nanoalloys for Efficient Oxygen Reduction Reaction. Journal of Physical Chemistry Letters 14(37) , 8296-8305. 10.1021/acs.jpclett.3c01870. CLS-APS, HXMA, SGM, SXRMB Materials