| 1 |
Zn/ZnO Heterostructure for the Application of MO Degradation and NO Removal
Wang PY, Yang LP, Li J, Sadeh B
Catalysis Letters, 150(7), 1985, 2020 |
| 2 |
Z-scheme photocatalytic NO removal on a 2D/2D iodine doped BiOIO3/g-C3N4 under visible-light irradiation
Wang BB, Chen DY, Li NJ, Xu QF, Li H, He JH, Lu JM
Journal of Colloid and Interface Science, 576, 426, 2020 |
| 3 |
High-yield and low-cost method to synthesize large-area porous g-C3N4 nanosheets with improved photocatalytic activity for gaseous nitric oxide and 2-propanol photodegradation
Han DY, Liu J, Cai H, Zhou X, Kong LR, Wang JW, Shi HF, Guo Q, Fan XX
Applied Surface Science, 464, 577, 2019 |
| 4 |
Insights into synergistic effect of chromium oxides and ceria supported on Ti-PILC for NO oxidation and their surface species study
Zhong L, Cai W, Yu Y, Zhong Q
Applied Surface Science, 325, 52, 2015 |
| 5 |
Removal of NO by using Fenton reagent solution in a lab-scale bubbling reactor
Guo RT, Pan WG, Zhang XB, Ren JX, Jin Q, Xu HJ, Wu J
Fuel, 90(11), 3295, 2011 |
| 6 |
The influence of ferrous-complexed EDTA as a solubilization agent and its auto-regeneration on the removal of nitric oxide gas through the culture of green alga Scenedesmus sp
Santiago DEO, Jin HF, Lee K
Process Biochemistry, 45(12), 1949, 2010 |
| 7 |
Adsorption and reaction of NO on activated carbon in the presence of oxygen and water vapour
Klose W, Rincon S
Fuel, 86(1-2), 203, 2007 |
| 8 |
Simultaneous removal of soot and nitrogen oxides from diesel engine exhausts
Pisarello ML, Milt V, Peralta MA, Querini CA, Miro EE
Catalysis Today, 75(1-4), 465, 2002 |
| 9 |
Modifications to the surface chemistry of low-rank coal-based carbon catalysts to improve flue gas nitric oxide removal
Izquierdo MT, Rubio B, Mayoral C, Andres JM
Applied Catalysis B: Environmental, 33(4), 315, 2001 |
| 10 |
Catalytic Decomposition of Nitric Oxide by Perovskites
Klvana D, Kirchnerova J, Tofan C
Korean Journal of Chemical Engineering, 16(4), 470, 1999 |
