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Response surface methodology analysis of the photocatalytic removal of Methylene Blue using bismuth vanadate prepared via polyol route
Journal of Environmental Sciences
◽
10.1016/s1001-0742(11)60966-2
◽
2012
◽
Vol 24
(9)
◽
pp. 1694-1701
◽
Cited By ~ 27
Author(s):
Abdul Halim Abdullah
◽
Hui Jia Melanie Moey
◽
Nor Azah Yusof
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Response Surface
◽
Bismuth Vanadate
◽
Photocatalytic Removal
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References
Photocatalytic removal of Methylene Blue using Ag@CdSe/Zeoilte nanocomposite under visible light irradiation by Response Surface Methodology
Materials Chemistry and Physics
◽
10.1016/j.matchemphys.2021.124696
◽
2021
◽
Vol 267
◽
pp. 124696
Author(s):
Seyyed Amir Mosavi
◽
Arezoo Ghadi
◽
Parvin Gharbani
◽
Ali Mehrizad
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Visible Light
◽
Response Surface
◽
Visible Light Irradiation
◽
Light Irradiation
◽
Photocatalytic Removal
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Preparation and application of Fe-modified banana peel in the adsorption of methylene blue: process optimization using response surface methodology
Environmental Nanotechnology Monitoring & Management
◽
10.1016/j.enmm.2021.100517
◽
2021
◽
pp. 100517
Author(s):
Fatmanur Çatlıoğlu
◽
Sema Akay
◽
Ersan Turunç
◽
Belgin Gözmen
◽
Ioannis Anastopoulos
◽
...
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Response Surface
◽
Process Optimization
◽
Banana Peel
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Optimization and Modeling of Photocatalytic Removal of Norfloxacin Using Tungsten Bismuth Loaded Carbon Iron Complexes Based on Response Surface Methodology
Industrial & Engineering Chemistry Research
◽
10.1021/ie403406w
◽
2014
◽
Vol 53
(26)
◽
pp. 10775-10783
◽
Cited By ~ 14
Author(s):
Shijie Chen
◽
Yingjie Li
◽
Renjiang Lü
◽
Jiping Jiang
◽
Guangshan Zhang
◽
...
Keyword(s):
Response Surface Methodology
◽
Response Surface
◽
Iron Complexes
◽
Photocatalytic Removal
◽
Carbon Iron
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Growth of ZnO nanowires on carbon fibers for photocatalytic degradation of methylene blue aqueous solutions: An investigation on the optimization of processing parameters through response surface methodology/central composite design
Ceramics International
◽
10.1016/j.ceramint.2019.11.244
◽
2020
◽
Vol 46
(6)
◽
pp. 7459-7474
◽
Cited By ~ 2
Author(s):
Irmak Doğan Tunç
◽
Mustafa Erol
◽
Fethullah Güneş
◽
Mücahit Sütçü
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Aqueous Solutions
◽
Photocatalytic Degradation
◽
Central Composite Design
◽
Response Surface
◽
Carbon Fibers
◽
Processing Parameters
◽
Zno Nanowires
◽
Central Composite
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Modeling and optimizing the photo-electro-catalytic degradation of methylene blue by response surface methodology
Optik
◽
10.1016/j.ijleo.2019.163711
◽
2020
◽
Vol 202
◽
pp. 163711
◽
Cited By ~ 1
Author(s):
Seyed Ali Rahmaninezhad
◽
Nasser Mehrdadi
◽
Zaynab Mahzari
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Response Surface
◽
Catalytic Degradation
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Dataset on adsorption of methylene blue from aqueous solution onto activated carbon obtained from low cost wastes by chemical-thermal activation – modelling using response surface methodology
Data in Brief
◽
10.1016/j.dib.2019.104036
◽
2019
◽
Vol 25
◽
pp. 104036
◽
Cited By ~ 6
Author(s):
Danial Nayeri
◽
Seyyed Alireza Mousavi
◽
Mahsa Fatahi
◽
Ali Almasi
◽
Faranak Khodadoost
Keyword(s):
Aqueous Solution
◽
Methylene Blue
◽
Response Surface Methodology
◽
Activated Carbon
◽
Response Surface
◽
Thermal Activation
◽
Low Cost
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Walnut shell powder as a low-cost adsorbent for methylene blue dye: isotherm, kinetics, thermodynamic, desorption and response surface methodology examinations
Scientific Reports
◽
10.1038/s41598-020-64745-3
◽
2020
◽
Vol 10
(1)
◽
Cited By ~ 4
Author(s):
Mohammad Kashif Uddin
◽
Abu Nasar
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Response Surface
◽
Low Cost
◽
Walnut Shell
◽
Blue Dye
◽
Methylene Blue Dye
◽
Shell Powder
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Photocatalytic degradation of methylene blue with P25/graphene/polyacrylamide hydrogels: Optimization using response surface methodology
Journal of Hazardous Materials
◽
10.1016/j.jhazmat.2020.123314
◽
2020
◽
Vol 400
◽
pp. 123314
◽
Cited By ~ 3
Author(s):
Mokrema Moztahida
◽
Dae Sung Lee
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Photocatalytic Degradation
◽
Response Surface
◽
Polyacrylamide Hydrogels
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Response Surface Methodology for Optimizing Adsorption Process Parameters for Methylene Blue Removal by a Hydrogel Composite
Adsorption Science & Technology
◽
10.1260/0263-6174.28.10.913
◽
2010
◽
Vol 28
(10)
◽
pp. 913-922
◽
Cited By ~ 30
Author(s):
Yi Liu
◽
Yian Zheng
◽
Aiqin Wang
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Response Surface
◽
Process Parameters
◽
Adsorption Process
◽
Hydrogel Composite
◽
Methylene Blue Removal
Download Full-text
Rapid removal of Auramine-O and Methylene blue by ZnS:Cu nanoparticles loaded on activated carbon: A response surface methodology approach
Journal of the Taiwan Institute of Chemical Engineers
◽
10.1016/j.jtice.2015.02.026
◽
2015
◽
Vol 53
◽
pp. 80-91
◽
Cited By ~ 102
Author(s):
Arash Asfaram
◽
Mehrorang Ghaedi
◽
Shaaker Hajati
◽
Mohammad Rezaeinejad
◽
Alireza Goudarzi
◽
...
Keyword(s):
Methylene Blue
◽
Response Surface Methodology
◽
Activated Carbon
◽
Response Surface
◽
Auramine O
◽
Rapid Removal
Download Full-text
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