Synthesis, characterization and sorption properties of silica modified with some derivatives of β-cyclodextrin.

[1]  Hakimeh Sharififard,et al.  A comparative investigation on removal performances of commercial activated carbon, chitosan biosorbent and chitosan/activated carbon composite for cadmium , 2012 .

[2]  G. Copello,et al.  Adsorption of Cd(II) and Pb(II) onto a one step-synthesized polyampholyte: kinetics and equilibrium studies. , 2012, Journal of hazardous materials.

[3]  C. Fall,et al.  Adsorption of cadmium by Na and Fe modified zeolitic tuffs and carbonaceous material from pyrolyzed sewage sludge. , 2012, Journal of environmental management.

[4]  Xialin Hu,et al.  Adsorption of cadmium(II) on humic acid coated titanium dioxide. , 2012, Journal of colloid and interface science.

[5]  M. Ossman,et al.  Removal of Cd (II) ion from waste water by adsorption onto polyaniline coated on sawdust , 2011 .

[6]  Yukiko Takahashi,et al.  Fabrication and characterization of a α,β,γ,δ-Tetrakis(1-methylpyridinium-4-yl)porphine/silica nanocomposite thin-layer membrane for detection of ppb-level heavy metal ions. , 2011, Analytica chimica acta.

[7]  Shubin Yang,et al.  Investigation of the sorption behavior of Cd(II) on GMZ bentonite as affected by solution chemistry , 2011 .

[8]  L. Belyakova,et al.  Interaction of β-cyclodextrin with mercury(II) nitrate , 2008 .

[9]  D. Mohan,et al.  Single, binary and multi-component adsorption of copper and cadmium from aqueous solutions on Kraft lignin--a biosorbent. , 2006, Journal of colloid and interface science.

[10]  Susmita Gupta,et al.  Adsorption of Ni(II) on clays. , 2006, Journal of colloid and interface science.

[11]  A. M. El-kamash,et al.  Modeling batch kinetics and thermodynamics of zinc and cadmium ions removal from waste solutions using synthetic zeolite A. , 2005, Journal of hazardous materials.

[12]  M. Loizidou,et al.  The effect of competitive cations and anions on ion exchange of heavy metals , 2005 .

[13]  S. Kocaoba,et al.  Removal of chromium (III) and cadmium (II) from aqueous solutions , 2005 .

[14]  Hongwen Zhang,et al.  Studies on novel functional β-cyclodextrin and its metal complexes , 2004 .

[15]  B. Tang,et al.  Synthesis of a novel host molecule of cross-linking-polymeric-beta-cyclodextrin-o-vanillin furfuralhydrazone and spectrofluorimetric analysis of its identifying cadmium. , 2004, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.

[16]  E. Robens,et al.  Selective removal of the heavy metal ions from waters and industrial wastewaters by ion-exchange method. , 2004, Chemosphere.

[17]  B. K. Mishra,et al.  Chemical modification of silica surface by immobilization of functional groups for extractive concentration of metal ions. , 2004, Talanta.

[18]  T. Vuorinen,et al.  Interaction of β-cyclodextrin with cadmium(II) ions , 2003 .

[19]  M. Bacquet,et al.  Uptake of heavy metals from synthetic aqueous solutions using modified PEI-silica gels. , 2003, Water research.

[20]  E. Rizzarelli,et al.  Conformational features and coordination properties of functionalized β-cyclodextrins. Formation, stability and structure of proton and copper(II) complexes of 3A-[1-(2-amino)ethylamino]-3A-deoxy-2A(S),3A(R)-β-cyclodextrin , 2002 .

[21]  R. Yong,et al.  Aspects of kaolinite characterization and retention of Pb and Cd , 2002 .

[22]  E. Norkus,et al.  Interaction of lead(II) with β-cyclodextrin in alkaline solutions , 2002 .

[23]  Dinesh Mohan,et al.  Single- and multi-component adsorption of cadmium and zinc using activated carbon derived from bagasse--an agricultural waste. , 2002, Water research.

[24]  V. Linkov,et al.  Interaction of N-vinyl-2-pyrrolidone with surface of hydride silica , 2000 .

[25]  F. Barbier,et al.  Adsorption of lead and cadmium ions from aqueous solution to the montmorillonite/water interface , 2000 .

[26]  T. Gale,et al.  Purification of metal plating rinse waters with chelating ion exchangers , 2000 .

[27]  P. K. Bose,et al.  Evidence for covalent binding between copper ions and cyclodextrin cavity: a vibrational circular dichroism study. , 1999, Carbohydrate research.

[28]  J. Szejtli Introduction and General Overview of Cyclodextrin Chemistry. , 1998, Chemical reviews.

[29]  D. Kaušpėdienė,et al.  Simultaneous purification of sewage from Cd(II) and nonionic surfactant with cation exchanger , 1998 .

[30]  K. Rengan Chelating resins: Sorption characteristics in chloride media , 1997 .

[31]  D. Caputo,et al.  Evaluation of phillipsite as cation exchanger in lead removal from water , 1996 .

[32]  Kouki Jyodoi,et al.  Thermal decomposition of cyclodextrins (α-, β-, γ-, and modified β-CyD) and of metal—(β-CyD) complexes in the solid phase , 1993 .

[33]  R. Taft,et al.  Linear Solvation Energy Relationships. Standard Molar Gibbs Free Energies and Enthalpies of Transfer of Ions from Water into Nonaqueous Solvents , 1988 .

[34]  M. Marhol Ion Exchangers in Analytical Chemistry. Their Properties and Use in Inorganic Chemistry , 1982 .

[35]  R. Iler The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties and Biochemistry of Silica , 1979 .

[36]  R. Pearson Hard and soft acids and bases, HSAB, part II: Underlying theories , 1968 .

[37]  R. Pearson Hard and soft acids and bases, HSAB, part 1: Fundamental principles , 1968 .

[38]  S. J. Gregg,et al.  Adsorption Surface Area and Porosity , 1967 .

[39]  I. Ryabchikov,et al.  Determination of Activation Energies of Chemical Reactions by Differential Thermal Analysis , 1966, Nature.

[40]  P. W. Bowman,et al.  PHS Public Health Service , 1963 .

[41]  Herbert. Freundlich,et al.  The Adsorption of cis- and trans-Azobenzene , 1939 .

[42]  I. Langmuir THE ADSORPTION OF GASES ON PLANE SURFACES OF GLASS, MICA AND PLATINUM. , 1918 .

[43]  Jean-Marie Lehn,et al.  Supramolecular Chemistry: Concepts And Perspectives , 2014 .

[44]  V. Soldatov,et al.  Sorption of bivalent ions by a fibrous chelating ion exchanger and the structure of sorption complexes , 2011 .

[45]  M. Menu,et al.  Triethoxysilyl-substituted aminoethanethiol ligands for zinc and cadmium complexes and aminoethanethiol-modified silica gel. Evaluation of the corresponding supported molecular trap for metallic pollutant uptake (Cd2+, Hg2+ and Pb2+). , 2000, Journal of environmental monitoring : JEM.

[46]  R. Gobetto,et al.  Fast carbonyl exchange in the solid state for β-cyclodextrin/(arene)Cr(CO)3 inclusion complexes , 1999 .

[47]  C. Gutsche Calixarenes: An Introduction , 1989 .

[48]  Y. Marcus The Softness Parameters of Ions. Prediction of the Occurrence of Miscibility Gaps in Molten Salt Mixtures , 1972 .

[49]  L. Friberg,et al.  Cadmium in the environment , 1971 .

[50]  L. J. Bellamy Advances in infrared group frequencies , 1968 .

[51]  David N. Kendall,et al.  Applied Infrared Spectroscopy , 1966 .

[52]  C. Amphlett,et al.  Inorganic ion exchangers , 1964 .

[53]  E. Barrett,et al.  (CONTRIBUTION FROM THE MULTIPLE FELLOWSHIP OF BAUGH AND SONS COMPANY, MELLOX INSTITUTE) The Determination of Pore Volume and Area Distributions in Porous Substances. I. Computations from Nitrogen Isotherms , 1951 .

[54]  R. Pierotti,et al.  International Union of Pure and Applied Chemistry Physical Chemistry Division Commission on Colloid and Surface Chemistry including Catalysis* Reporting Physisorption Data for Gas/solid Systems with Special Reference to the Determination of Surface Area and Porosity Reporting Physisorption Data for , 2022 .