Keyword [chromium(VI)]
Result: 41 - 59 | Page: 3 of 3 |
| 41. | Photoluminescent metalloles for chemical sensing of nitroaromatic explosives and chromium(VI) |
| 42. | Biochemistry of chromium(VI) reduction: Formation, fate, and implications of soluble organo-chromium(III) complexes on the biogeocycle of chromium |
| 43. | Removal Kinetics and Mechanisms of Chromium(VI) and Arsenic(V) in Groundwater by Permeable Reactive Barriers with Environmental Life Cycle Assessment |
| 44. | Chromate reduction kinetics and chromium(VI) toxicity in Shewanella oneidensis MR-1 |
| 45. | Co-removal of chromium(VI) during precipitation of copper, nickel and zinc |
| 46. | Feasibility of using living alfalfa plants in the phytoextraction of cadmium(II), chromium(VI), copper(II), nickel(II), and zinc(II): Agar and soil studies |
| 47. | Natural attenuation of chromium(VI) by bacteria in harbor sediments |
| 48. | Microbial chromium(VI) reduction: Role of electron donors, acceptors, and mechanisms, with special emphasis on Clostridium spp |
| 49. | Electrokinetically enhanced reduction of chromium(VI) by aqueous iron(II) in contaminated clays |
| 50. | Applications of creosotebush in phytoremediation of copper(II) and chromium(VI) ions |
| 51. | Modeling chromium(VI) reduction in pure and coculture biofilm reactors |
| 52. | The corrosion inhibition mechanism of chromium(VI): Probing the interaction of chromium(VI) with aluminum alloy surfaces |
| 53. | Remediation of aqueous chromium(VI), lead(II), and technetium(VII) by supported zero-valent iron nanoparticles and ion exchange of cesium from complex aqueous streams |
| 54. | Degradation of naphthalene and concurrent reduction of chromium(VI) by Pseudomonas putida ATCC 17484 |
| 55. | Removal of arsenic, selenium, and chromium(VI) from wastewater using Fe(III)-doped alginate gel sorbent |
| 56. | Biological reduction of chromium(VI) under anaerobic conditions |
| 57. | Chromium(VI) reduction by naturally-occurring organic compounds: Direct and surface-catalyzed reactions |
| 58. | A detailed mechanistic study of the chromium(VI) oxidation of L-cysteine: Effects ofpH, iodide and manganese(II) ions |
| 59. | Development and Synthetic Application of Iodine(III)- and Chromium(VI)-Mediated Alkene Oxamidation |
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