Use of wheat straw for effective binding of metal ions via a novel modification

[1]  U. Farooq,et al.  Environmentally benevolent urea modified Saccharum bengalense as a high capacity biosorbent for removal of Pb(II) ions: metal uptake modeling and adsorption efficiency , 2014 .

[2]  Ruiwen Yan,et al.  Biosorption of Zn2+ and Pb2+ from aqueous solutions using native and microwave treated Flammulina velutipes stipe , 2014, Korean Journal of Chemical Engineering.

[3]  Young-Kee Kim,et al.  Adsorption Characteristics of Multi-Metal Ions by Red Mud, Zeolite, Limestone, and Oyster Shell , 2014 .

[4]  Muhammad Salman,et al.  Insight into the binding of copper(II) by non-toxic biodegradable material (Oryza sativa): effect of modification and interfering ions , 2014, Clean Technologies and Environmental Policy.

[5]  J. Kozinski,et al.  Biosorption of Lead Ions from Aqueous Solution Using Ficus benghalensis L. , 2013 .

[6]  M. Martín-Lara,et al.  Effect of lead in biosorption of copper by almond shell , 2013 .

[7]  Minhee Lee,et al.  Equilibrium and Kinetic Studies of the Biosorption of Dissolved Metals on Bacillus drentensis Immobilized in Biocarrier Beads , 2013 .

[8]  Akl M. Awwad,et al.  Equilibrium and kinetic studies of cadmium(II) and lead(II) ions biosorption onto Ficus carcia leaves , 2013, International Journal of Industrial Chemistry.

[9]  U. Farooq,et al.  Effect of modification of environmentally friendly biosorbent wheat (Triticum aestivum) on the biosorptive removal of cadmium(II) ions from aqueous solution , 2011 .

[10]  A. Dubey,et al.  Adsorption of lead using a new green material obtained from Portulaca plant , 2011, International Journal of Environmental Science and Technology.

[11]  J. Kozinski,et al.  Biosorption of heavy metal ions using wheat based biosorbents--a review of the recent literature. , 2010, Bioresource technology.

[12]  H. P. Sarma,et al.  Removal of lead(II) from aqueous solution using heartwood of Areca catechu powder , 2010 .

[13]  D. H. K. Reddy,et al.  Biosorption of Pb2+ from aqueous solutions by Moringa oleifera bark: equilibrium and kinetic studies. , 2010, Journal of hazardous materials.

[14]  G. Bernardo,et al.  Chromium (III) uptake by agro-waste biosorbents: chemical characterization, sorption-desorption studies, and mechanism. , 2009, Journal of hazardous materials.

[15]  M. M. Rao,et al.  Removal of some metal ions by activated carbon prepared from Phaseolus aureus hulls. , 2009, Journal of hazardous materials.

[16]  Dan Xiao,et al.  Adsorption of cadmium ion from aqueous solution by ground wheat stems. , 2009, Journal of hazardous materials.

[17]  M. Kaur,et al.  Agricultural waste material as potential adsorbent for sequestering heavy metal ions from aqueous solutions - a review. , 2008, Bioresource technology.

[18]  S. M. Al-Garni,et al.  Biosorption of lead by Gram-ve capsulated and non-capsulated bacteria , 2007 .

[19]  R. Jacques,et al.  Yellow passion-fruit shell as biosorbent to remove Cr(III) and Pb(II) from aqueous solution , 2007 .

[20]  U. Farooq,et al.  Triticum aestivum: A novel biosorbent for lead (II) ions , 2007 .

[21]  Y. Wong,et al.  Surface complexation mechanism and modeling in Cr(III) biosorption by a microalgal isolate, Chlorella miniata. , 2006, Journal of colloid and interface science.

[22]  Yanhu Li,et al.  Biosorption of copper and lead ions by waste beer yeast. , 2006, Journal of hazardous materials.

[23]  Jordi Poch,et al.  Removal of lead(II) and cadmium(II) from aqueous solutions using grape stalk waste. , 2006, Journal of hazardous materials.

[24]  J. Peralta-Videa,et al.  Potential of Agave lechuguilla biomass for Cr(III) removal from aqueous solutions: thermodynamic studies. , 2006, Bioresource technology.

[25]  M. Farajzadeh,et al.  Adsorption characteristics of wheat bran towards heavy metal cations , 2004 .

[26]  Tonni Agustiono Kurniawan,et al.  Low-cost adsorbents for heavy metals uptake from contaminated water: a review. , 2003, Journal of hazardous materials.

[27]  T. Viraraghavan,et al.  Removal of heavy metals using the fungus Aspergillus niger , 1999 .

[28]  R. Mark Bricka,et al.  A review of potentially low-cost sorbents for heavy metals , 1999 .

[29]  Y. Ho,et al.  Pseudo-second order model for sorption processes , 1999 .

[30]  C. F. Forster,et al.  THE USE OF SAGO WASTE FOR THE SORPTION OF LEAD AND COPPER , 1998 .

[31]  H. Boehm.,et al.  Some aspects of the surface chemistry of carbon blacks and other carbons , 1994 .