| 1 |
Bioconversion of high-concentration chelatedCdtonano-CdSphotocatalyst by sulfate-reducing bacteria
Liu YL, Wang J, Li PY, Xie Y, Xie HY, Xie TH, Zhang YK
Journal of Chemical Technology and Biotechnology, 95(11), 3003, 2020 |
| 2 |
Effect of solution chemistry on the characteristics of hydrothermally grown WO3 for electroactive applications
Christou K, Louloudakis D, Vernardou D, Savvakis C, Katsarakis N, Koudoumas E, Kiriakidis G
Thin Solid Films, 594, 333, 2015 |
| 3 |
Taking advantage of a priori unwanted catalysts modifications
Arendt E, Gaigneaux EM
Applied Catalysis A: General, 474, 51, 2014 |
| 4 |
Competitive adsorption of heavy metal by extracellular polymeric substances (EPS) extracted from sulfate reducing bacteria
Wang J, Li Q, Li MM, Chen TH, Zhou YF, Yue ZB
Bioresource Technology, 163, 374, 2014 |
| 5 |
Solid-liquid phase equilibria in the systems K2SO4-MSO4-H2O (M = Co, Ni, Cu) from ambient to enhanced temperatures
Wollmann G, Voigt W
Fluid Phase Equilibria, 291(2), 154, 2010 |
| 6 |
Catalytic decomposition of sulfur trioxide on the binary metal oxide catalysts of Fe/Al and Fe/Ti
Kim TH, Gong GT, Lee BG, Lee KY, Jeon HY, Shin CH, Kim H, Jung KD
Applied Catalysis A: General, 305(1), 39, 2006 |
| 7 |
Sulfur resistance and high activity of hydrated manganese sulfate in the catalytic oxidation of methanethiol
Cellier C, Gaigneaux EM, Grange P
Journal of Catalysis, 222(1), 255, 2004 |
| 8 |
One-step preparation of manganese-, iron-, and aluminium-promoted sulfated zirconias for reaction of butane to isobutane
Hino M, Arata K
Reaction Kinetics and Catalysis Letters, 81(2), 321, 2004 |
| 9 |
SO2 gas sensor utilizing stabilized zirconia and sulfate salts with a new working mechanism
Suganuma S, Watanabe M, Kobayashi T, Wakabayashi S
Solid State Ionics, 126(1-2), 175, 1999 |
| 10 |
Prospect and Problems of Solid Electrolyte-Based Oxygenic Gas Sensors
Yamazoe N, Miura N
Solid State Ionics, 86-88, 987, 1996 |
