Biomedical Engineering Reference
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Sag, Y. and Aktay, Y. (2002). Kinetic studies on
sorption of Cr(VI) and Cu(II) ions by chitin, chi-
tosan and Rhizopus Arrhizus.
Biochem. Eng. J
.
12
, 143-153.
Sashiwa, H., Yajima, H., and Aiba, S. I. (2003).
Synthesis of chitosan-dendrimer hybrid and its
biodegradation.
Biomacromolecules
4
(5), 1244-
1249.
Shimizu, Y., Nakamura, S., Saito, Y., and Na-
kamura, T. (2008). Removal of Phosphate Ions
with a Chemically Modified Chitosan/Metal-Ion
Complex.
J. Appl. Polym. Sci
.
107
, 1578-1583.
Tabakci, M. and Yilmaz, M. (2008). Synthesis of
a chitosan-linked calix[4]arene chelating poly-
mer and its sorption ability toward heavy met-
als and dichromate anions.
Bioresour. Technol.
99
(14), 6642-6645.
Tabakci, M., Ersoz, M., and Yilmaz, M. (2006).
A calix[4]arene-containing polysiloxane resin
for removal of heavy metals and dichromate
anion.
J. Macromol. Sci. Pure Appl. Chem
.
43
,
57-69.
Tabakci, M. and Yilmaz, M. (2008). Synthesis of
a chitosan-linked calix[4]arene chelating poly-
mer and its sorption ability toward heavy met-
als and dichromate anions.
Bioresource Technol
.
99
(14), 6642-6645.
Tan, I. A. W., Hameed, B. H., and Ahmad, A. L.
(2007). Equilibrium and kinetic studies on basic
dye adsorption by oil palm fibre activated car-
bon.
Chem. Eng. J
.
127
, 111-119.
Tang, L. and David, N. (2001). Chelation of chi-
tosan derivatives with zinc ions. II. Association
complexes of Zn
2+
onto
O,N
-carboxymethyl chi-
tosan.
J. Appl. Polym. Sci
.
79
(8), 1476-1485.
Tang, X. H., Tan, S. Y., and Wang, Y. T. (2002).
Study of the synthesis of chitosan derivatives
containing benzo-21-crown-7 and their adsorp-
tion properties for metal ions.
J. Appl. Polym.
Sci
.
83
(9), 1886-1891.
Tien, C. (1994).
Adsorption Calculations and
Modeling
, Butterworth-Heinemann, Newton,
MA, p. 244.
Tsigos, L., Martinou, A., Kafetzopoulos, D., and
Bouriotis, V. (2000). Chitin deacetylases: New,
versatile tools in biotechnology.
Trends Biotech-
nol
. 18(7), 305-312.
Unlu, N. and Ersoz, M. (2006). Adsorption char-
acteristics of heavy metal ions onto a low cost
biopolymer sorbent from aqueous solutions.
J.
Hazard. Mater
.
B136
, 272-280.
Uysal, M. and Ar, I. (2007). Removal of Cr(VI)
from industrial wastewaters by adsorption, part
1: determination of optimum conditions.
J. Haz-
ard. Mater
.
149
, 482-491.
Varma, A. J., Deshpande, S. V., and Kennedy, J.
F. (2004). Metal complexation by chitosan and
its derivatives: A review.
Carbohydrate Poly-
mers
55
, 77-93.
Vasconcelos, H. L., Camargo, T. P., Goncalves,
N. S., Neves, A., Laranjeira, M. C. M., and Fá-
vere, V. T. (2008). Chitosan cross-linked with a
metal complexing agent: Synthesis, character-
ization and copper(II) ions adsorption.
Reactive
and Functional Polymers
68
, 572-579.
Vicens, J. and Bohmer, V. (1991). Calixarenes:
A Versatile Class of Macrocyclic Compounds
Topics in Inclusion Science. Kluwer Academic
Publishers, Dordrecht.
Volesky, B. (2001). Detoxification of metal-
bearing effluents: Biosorption for the next cen-
tury.
Hydrometallurgy
59
(2-3), 203-216.
Wagner, M. and Nicell, J. A. (2002). Detoxifica-
tion of phenolic solutions with horseradish per-
oxidase and hydrogen peroxide.
Water Res
.
36
,
4041.
Wan Ngah, W. S. and Liang, K. H. (1999). Ad-
sorption of Gold (III) ions onto chitosan and N-
Carboxymethyl Chitosan: Equilibrium Studies.
Ind. Eng. Chem. Res
.
38
(4), 1411-1414.
Weber, T. W. and Chakravorti, R. K. (1974). Pore
and solid diffusion models for fixed-bed adsorb-
ers.
AIChE J
.
20
, 228.
Weber, W. J. and Morris, J. C. (1962). Advances
in water pollution research. In:
Proc. Int. Conf.
Water pollution symposium
, Vol. 2, Pergamon
press, Oxford, pp. 231-266.
Wong, Y. C., Szeto, Y. S., Cheung, W. H., and
McKay, G. (2004). Adsorption of acid dyes on
chitosan--Equilibrium isotherm analyses.
Pro-
cess Biochem
.
39
, 693.
Wong, Y. C., Szeto, Y. S., Cheung, W. H., and
McKay, G. (2003). Equilibrium studies for acid
dye adsorption onto chitosan,
Langmuir
19
,
7888.
Wu, F. C., Tseng, R. L., and Juang, R. S. (2001).
Kinetic Modeling of Liquid-Phase Adsorption of
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