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[1] Ghaedi, M., Danaei Ghazanfarkhani, M., Khodadoust, S., Sohrabi, N. and Oftade, M. (
ǰ
Acceleration of methylene blue adsorption onto activated carbon prepared from dross licorice
by ultrasonic: Equilibrium, kinetic and thermodynamic studies.
Journal of Industrial and
Engineering Chemistry.
,
–
[2] Ghaedi, M., Heidarpour, Sh., Kokhdan, S.N., Sahraie, R., Daneshfar, A. and Brazesh, B. (
ǰ
Comparison of silver and palladium nanoparticles loaded on activated carbon for efficient
removal of Methylene blue: Kinetic and isotherm study of removal process.
Powder
Technology.
, – .
[3] Bedin, K.C., Martins, A.C., Cazetta, A.L., Pezoti, O. and Almeida, V.C. (
ǰKOH-activated carbon
prepared from sucrose spherical carbon: Adsorption equilibrium, kinetic and thermodynamic
studies for Methylene Blue removal.
Chemical Engineering Journal 286
. –
[4] øüĉ
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[5] Chang, J., Ma, J., Ma, Q., Zhang, D., Qiao, N., Hu, M. and Ma, H. (2016). Adsorption of methylene
blue onto Fe
3
O
4
/activated montmorillonite nanocomposite.
Applied Clay Science.
119, 132–
140.
[6] Ghaedi, M., Nasab, A.G., Khodadoust, S., Sahraei, R. abd Daneshfar, A. (2015). Characterization of
zinc oxide nanorods loaded on activated carbon as cheap and efficient adsorbent for removal
of methylene blue.
Journal of Industrial and Engineering Chemistry.
21, 986–993.
[7] üîĉ
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[8] Cherifi, H., Fatiha, B. and Salah, H. (
ǰKinetic studies on the adsorption of methylene blue
onto vegetal fiber activated carbons.
Applied Surface Science.
, –
[9] Benadjemia, M., Millière, L., Reinert, L., Benderdouche, N. and Duclaux, L. (
ǰPreparation,
characterization and Methylene Blue adsorption of phosphoric acid activated carbons from
globe artichoke leaves.
Fuel Processing Technology.
,
–
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