화학공학소재연구정보센터
검색결과 : 124건
No. Article
1 Stable Cu-Co/C carbon-based composites for efficiency catalytic degradation of Orange II by PMS: Effect factors, application potential analysis, and mechanism
Xiaodan Huang, Caihua Liu, Zhiyong Zhang, V. Vasanthakumar, Huiying Ai, Lei Xu, Ming-Lai Fu, Baoling Yuan
Journal of Industrial and Engineering Chemistry, 126, 307, 2023
2 Efficient and practical adsorption of mixed anionic dyes in aqueous solution by magnetic NiFe-layered double oxide
Intachai S, Tongchoo P, Sumanatrakul P, Pankam P, Khaorapapong N
Korean Journal of Chemical Engineering, 39(10), 2675, 2022
3 Catalytic ozonation of an azo-dye using a natural aluminosilicate
Inchaurrondo N, di Luca C, Zerjav G, Grau JM, Pintar A, Haure P
Catalysis Today, 361, 24, 2021
4 Facile synthesis of chitosan/gelatin filled with graphene bead adsorbent for orange II removal
Wu M, Chen WJ, Mao QH, Bai YS, Ma HZ
Chemical Engineering Research & Design, 144, 35, 2019
5 Electrocoagulation using aluminium anodes activated with Mg, In and Zn alloying elements
Dura A, Breslin CB
Journal of Hazardous Materials, 366, 39, 2019
6 Enhanced adsorption of Orange II on bagasse-derived biochar by direct addition of CTAB
Li G, Li H, Mi X, Zhao W
Korean Journal of Chemical Engineering, 36(8), 1274, 2019
7 Continuous removal of Cr(VI) and Orange II over a novel Fe-0-NaA zeolite membrane catalyst
Liu J, Yin Q, Zhang HP, Yan Y, Yi ZJ
Separation and Purification Technology, 209, 734, 2019
8 Degradation of azo dye Orange II under dark ambient conditions by calcium strontium copper perovskite
Chen HH, Motuzas J, Martens W, da Costa JCD
Applied Catalysis B: Environmental, 221, 691, 2018
9 Photocatalytic Activity of Mesoporous alpha-Fe2O3 Synthesized via Soft Chemistry and Hard Template Methods for Degradation of Azo Dye Orange II
Domingo E, Beltran A, Sanchis R, Garcia T, Solsona B, Galindo F
Catalysis Letters, 148(5), 1289, 2018
10 Hydroxyl radical generation by zero-valent iron/Cu (ZVI/Cu) bimetallic catalyst in wastewater treatment: Heterogeneous Fenton/Fenton-like reactions by Fenton reagents formed in-situ under oxic conditions
Yamaguchi R, Kurosu S, Suzuki M, Kawase Y
Chemical Engineering Journal, 334, 1537, 2018