An evaluation on S-type adsorption isotherm in the model of crosslinked polyhydroxamates/oxazine dyes/water interactions
Citation
Saraydın, D., Işıkver, Y., & Karadağ, E. (2022). An evaluation on S-type adsorption isotherm in the model of crosslinked polyhydroxamates/oxazine dyes/water interactions. Adsorption, 28(5–6), 249–260. https://doi.org/10.1007/s10450-022-00367-7Abstract
The efects of crosslinker and dye type on swelling and S-type adsorption properties of crosslinked polyhydroxamates (CHP)
were investigated. CHPs containing N,Nʹ-methylenebisacrylamide (N), or ethylene glycol dimethacrylate (E) were used in the
swelling, difusion, and adsorption experiments in solutions of oxazine dyes such as Brilliant Cresyl Blue, Nile Blue, and Cre syl Violet. Swelling and difusion parameters of CHPs in dye solutions (such as equilibrium swelling, half time of swelling,
swelling value at half time, network parameter, difusion exponent, and difusion constant) were calculated. It is understood
from the time of swelling to reach equilibrium that CHPs swell very fast. CHP-E in all dyes solutions swelled considerably
more than CHP-N. Dye solution difusion into CHPs was determined to be of non-Fickian character. It has been observed
that the swelling properties of hydrogels are highly infuenced by the crosslinker type. The adsorption of oxazine dyes onto
CHPs is similar to the S-type adsorption in the Giles classifcation system. When it was seen that the experimental data ft
the Sigmoidal 4 parameter equation with a high correlation (r2>0.995), the use of this equation determined the adsorption
parameters such as the highest bonding rate or monolayer coverage, the transition point of the isotherm, the magnitude of
the absorbent's absorbability and the slope parameter. Site-size, maximum fractional occupancy, the binding ratio at the
transition point, binding constant, the initial binding constant, partition coefcient, and adsorption free energy values were
also calculated by using the found adsorption values. Dye adsorption from all dyes solutions to CHP-E is considerably higher
than CHP-N. An increasing linear relationship was found between swelling and adsorption. In conclusion, the sigmoidal
equation approach can be a useful tool for chemists, chemical, agricultural and environmental engineers, polymer scientists
to fnd the adsorption parameters of polymer adsorbents, and at the same time, it can be said that CHP can be used as a good
sorbent in the removal of some chemical agents (such as dye molecules, organic molecules, biologically active molecules).