Publication Beamlines Strategic Pillar
Donato, Giovanni; Holzscherer, Derek; Beam, Jeremiah C.; Grosvenor, Andrew P. (2018). A one-step synthesis of rare-earth phosphate–borosilicate glass composites. RSC Advances 8(68) , 39053-39065. 10.1039/c8ra08657e. CLS-APS, VLS-PGM Environment
Ebinumoliseh, Ifeoma; Grosvenor, Andrew P. (2018). Effect of Synthetic Method and Annealing Temperature on the Structure of Hollandite-Type Oxides. Inorganic Chemistry 57(22) , 14353-14361. 10.1021/acs.inorgchem.8b02464. CLS-APS, SXRMB, VLS-PGM Environment
Van Loon, Lisa L.; Nelson, Andrew J.; Banerjee, Neil R. (2018). Will Synchrotron Studies Unlock the Mystery of the Invention of Coinage?. Microscopy and Microanalysis 24(S2) , 560-561. 10.1017/s143192761801499x. CLS-APS, IDEAS, SXRMB, VESPERS, VLS-PGM
Sifat, Rahin; Grosvenor, Andrew P. (2018). Examination of the site preference in garnet type (X3A2B3O12; X=Y, A/B= Al, Ga, Fe) materials. Solid State Sciences 83. 10.1016/j.solidstatesciences.2018.06.013. CLS-APS, VLS-PGM Materials
He, Shuijian; Turnbull, Matthew J.; Nie, Yuting; Sun, Xuhui; Ding, Zhifeng et al. (2018). Band structures of blue luminescent nitrogen-doped graphene quantum dots by synchrotron-based XPS. Surface Science 676, 51-55. 10.1016/j.susc.2018.01.013. CLS-APS, VLS-PGM Materials
Paknahad, Elham; Grosvenor, Andrew P. (2017). Investigation of the stability of glass-ceramic composites containing CeTi2O6 and CaZrTi2O7 after ion implantation. Solid State Sciences 74, 109-117. 10.1016/j.solidstatesciences.2017.10.013. CLS-APS, VLS-PGM Materials
Paknahad, Elham; Grosvenor, Andrew P. (2017). Investigation of CeTi2O6- and CaZrTi2O7-containing glass–ceramic composite materials. Canadian Journal of Chemistry 95(11) , 1-12. 10.1139/cjc-2016-0633. CLS-APS, SXRMB, VLS-PGM Materials
Kaliyappan, Karthikeyan; Liu, Jian; Xiao, Biwei; Lushington, Andrew; Li, Ruying et al. (2017). Enhanced Performance of P2-Na0.66 (Mn0.54 Co0.13 Ni0.13 )O2 Cathode for Sodium-Ion Batteries by Ultrathin Metal Oxide Coatings via Atomic Layer Deposition. Advanced Functional Materials 27(37) , 1701870. 10.1002/adfm.201701870. HXMA, VLS-PGM Materials
Van Loon, Lisa L.; Nelson, Andrew J.; Banerjee, Neil R. (2018). Will Synchrotron Studies Unlock the Mystery of the Invention of Coinage?. Microscopy and Microanalysis 24(S2) , 560-561. 10.1017/s143192761801499x. CLS-APS, IDEAS, SXRMB, VESPERS, VLS-PGM
Wang, Dongniu; Zuin, Lucia; Muir, David (2017). High-performance reduced graphene oxide – red phosphorous composites anodes for lithium batteries and soft X-ray near-edge structure studies. Canadian Journal of Chemistry 95(11) . 10.1139/cjc-2017-0121. IDEAS, VLS-PGM Materials
Cebe, Tugba; Ahuja, Neelam; Monte, Felipe; Awad, Kamal; Vyavhare, Kimaya et al. (2018). Novel 3D-printed methacrylated chitosan-laponite nanosilicate composite scaffolds enhance cell growth and biomineral formation in MC3T3 pre-osteoblasts. Journal of Materials Research 35(1) , 58-75. 10.1557/jmr.2018.260. SGM, SXRMB, VLS-PGM Agriculture
Varanasi, Venu G.; Ilyas, Azhar; Velten, Megen F.; Shah, Ami; Lanford, William A. et al. (2017). Role of Hydrogen and Nitrogen on the Surface Chemical Structure of Bioactive Amorphous Silicon Oxynitride Films. Journal of Physical Chemistry B 121(38) . 10.1021/acs.jpcb.7b05885. SGM, VLS-PGM Materials
Tang, Yuanhong; Wang, Zhiqiang; Wang, Dongniu; Wang, Jian; Sham, Tsun-Kong et al. (2017). Large-scale hollow nanoparticle identification by X-ray absorption spectroscopy. Canadian Journal of Chemistry 95(11) , 1151-1155. 10.1139/cjc-2017-0104. SGM, SM, VLS-PGM Materials
Tang, Yuanhong; Wang, Zhiqiang; Wang, Dongniu; Wang, Jian; Sham, Tsun-Kong et al. (2017). Large-scale hollow nanoparticle identification by X-ray absorption spectroscopy. Canadian Journal of Chemistry 95(11) , 1151-1155. 10.1139/cjc-2017-0104. SGM, SM, VLS-PGM Materials
Ebinumoliseh, Ifeoma; Grosvenor, Andrew P. (2018). Effect of Synthetic Method and Annealing Temperature on the Structure of Hollandite-Type Oxides. Inorganic Chemistry 57(22) , 14353-14361. 10.1021/acs.inorgchem.8b02464. CLS-APS, SXRMB, VLS-PGM Environment