| Haja, Dominik K.; Wu, Chang-Hao; Ponomarenko, Olena; Poole, Farris L.; George, Graham N. et al. (2020). Improving Arsenic Tolerance of Pyrococcus furiosus by Heterologous Expression of a Respiratory Arsenate Reductase. Applied and Environmental Microbiology 86(21) . 10.1128/aem.01728-20. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Agriculture |
| Zoroufchi Benis, Khaled; Shakouri, Mohsen; McPhedran, Kerry; Soltan, Jafar (2020). Enhanced arsenate removal by Fe-impregnated canola straw: assessment of XANES solid-phase speciation, impacts of solution properties, sorption mechanisms, and evolutionary polynomial regression (EPR) models. Environmental Science and Pollution Research 28(10) , 12659-12676. 10.1007/s11356-020-11140-0. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY, BXDS-WLE |
Peer-Reviewed Article |
Agriculture |
| Haja, Dominik K.; Wu, Chang-Hao; Ponomarenko, Olena; Poole, Farris L.; George, Graham N. et al. (2020). Improving Arsenic Tolerance of Pyrococcus furiosus by Heterologous Expression of a Respiratory Arsenate Reductase. Applied and Environmental Microbiology 86(21) . 10.1128/aem.01728-20. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Agriculture |
| Zoroufchi Benis, Khaled; Shakouri, Mohsen; McPhedran, Kerry; Soltan, Jafar (2020). Enhanced arsenate removal by Fe-impregnated canola straw: assessment of XANES solid-phase speciation, impacts of solution properties, sorption mechanisms, and evolutionary polynomial regression (EPR) models. Environmental Science and Pollution Research 28(10) , 12659-12676. 10.1007/s11356-020-11140-0. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY, BXDS-WLE |
Peer-Reviewed Article |
Agriculture |
| Haja, Dominik K.; Wu, Chang-Hao; Ponomarenko, Olena; Poole, Farris L.; George, Graham N. et al. (2020). Improving Arsenic Tolerance of Pyrococcus furiosus by Heterologous Expression of a Respiratory Arsenate Reductase. Applied and Environmental Microbiology 86(21) . 10.1128/aem.01728-20. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Agriculture |
| Zoroufchi Benis, Khaled; Shakouri, Mohsen; McPhedran, Kerry; Soltan, Jafar (2020). Enhanced arsenate removal by Fe-impregnated canola straw: assessment of XANES solid-phase speciation, impacts of solution properties, sorption mechanisms, and evolutionary polynomial regression (EPR) models. Environmental Science and Pollution Research 28(10) , 12659-12676. 10.1007/s11356-020-11140-0. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY, BXDS-WLE |
Peer-Reviewed Article |
Agriculture |
| Zoroufchi Benis, Khaled; Shakouri, Mohsen; McPhedran, Kerry; Soltan, Jafar (2020). Enhanced arsenate removal by Fe-impregnated canola straw: assessment of XANES solid-phase speciation, impacts of solution properties, sorption mechanisms, and evolutionary polynomial regression (EPR) models. Environmental Science and Pollution Research 28(10) , 12659-12676. 10.1007/s11356-020-11140-0. |
BIOXAS, BIOXAS-MAIN, BIOXAS-SPECTROSCOPY, BXDS-WLE |
Peer-Reviewed Article |
Agriculture |
| Su, Rui; Ma, Xu; Lin, Jinru; Yin, Xiuling; Wang, Xin et al. (2021). An alternative method for the treatment of metallurgical arsenic-alkali residue and recovery of high-purity sodium bicarbonate. Hydrometallurgy 202, 105590. 10.1016/j.hydromet.2021.105590. |
BIOXAS, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Environment |
| Yin, Xiuling; Zhang, Guoqing; Su, Rui; Zeng, Xiangfeng; Yan, Zelong et al. (2021). Oxidation and incorporation of adsorbed antimonite during iron(II)-catalyzed recrystallization of ferrihydrite. Science of the Total Environment 778, 146424. 10.1016/j.scitotenv.2021.146424. |
BIOXAS, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Environment |
| Schoepfer, Valerie A.; Lum, Jullieta E.; Lindsay, Matthew B. J. (2021). Molybdenum(VI) Sequestration Mechanisms During Iron(II)-Induced Ferrihydrite Transformation. ACS Earth and Space Chemistry 5(8) , 2094-2104. 10.1021/acsearthspacechem.1c00152. |
BIOXAS-MAIN, CMCF-BM |
Peer-Reviewed Article |
Environment |
| Su, Rui; Ma, Xu; Lin, Jinru; Yin, Xiuling; Wang, Xin et al. (2021). An alternative method for the treatment of metallurgical arsenic-alkali residue and recovery of high-purity sodium bicarbonate. Hydrometallurgy 202, 105590. 10.1016/j.hydromet.2021.105590. |
BIOXAS, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Environment |
| Yin, Xiuling; Zhang, Guoqing; Su, Rui; Zeng, Xiangfeng; Yan, Zelong et al. (2021). Oxidation and incorporation of adsorbed antimonite during iron(II)-catalyzed recrystallization of ferrihydrite. Science of the Total Environment 778, 146424. 10.1016/j.scitotenv.2021.146424. |
BIOXAS, BIOXAS-SPECTROSCOPY |
Peer-Reviewed Article |
Environment |
| Pan, Yuanming; Li, Dien; Feng, Renfei; Wiens, Eli; Chen, Ning et al. (2021). Uranyl binding mechanism in microcrystalline silicas: A potential missing link for uranium mineralization by direct uranyl co-precipitation and environmental implications. Geochimica et Cosmochimica Acta 292, 518-531. 10.1016/j.gca.2020.10.017. |
BIOXAS-SPECTROSCOPY, HXMA, VESPERS |
Peer-Reviewed Article |
Environment |
| Schoepfer, Valerie A.; Lum, Jullieta E.; Lindsay, Matthew B. J. (2021). Molybdenum(VI) Sequestration Mechanisms During Iron(II)-Induced Ferrihydrite Transformation. ACS Earth and Space Chemistry 5(8) , 2094-2104. 10.1021/acsearthspacechem.1c00152. |
BIOXAS-MAIN, CMCF-BM |
Peer-Reviewed Article |
Environment |
| Pan, Yuanming; Li, Dien; Feng, Renfei; Wiens, Eli; Chen, Ning et al. (2021). Uranyl binding mechanism in microcrystalline silicas: A potential missing link for uranium mineralization by direct uranyl co-precipitation and environmental implications. Geochimica et Cosmochimica Acta 292, 518-531. 10.1016/j.gca.2020.10.017. |
BIOXAS-SPECTROSCOPY, HXMA, VESPERS |
Peer-Reviewed Article |
Environment |