Application of heated date seeds as a novel extractant for diuron from water

[1]  G. Walker,et al.  Adsorption mechanisms of removing heavy metals and dyes from aqueous solution using date pits solid adsorbent. , 2010, Journal of hazardous materials.

[2]  M. Al‐Ghouti,et al.  Simultaneous determination of pesticides at trace levels in water using multiwalled carbon nanotubes as solid-phase extractant and multivariate calibration. , 2009, Journal of hazardous materials.

[3]  K. Ibrahim,et al.  Preparation of highly selective solid-phase extractants for Cibacron reactive dyes using molecularly imprinted polymers , 2009, Analytical and bioanalytical chemistry.

[4]  M. Al‐Ghouti,et al.  Preconcentration and determination of high leachable pesticides residues in water using solid-phase extraction coupled with high-performance liquid chromatography , 2008 .

[5]  J. Simal-Gándara,et al.  The mobility and degradation of pesticides in soils and the pollution of groundwater resources , 2008 .

[6]  Gavin Walker,et al.  Effect of solution pH, ionic strength, and temperature on adsorption behavior of reactive dyes on activated carbon , 2008 .

[7]  J. Bollinger,et al.  Adsorption of diuron and its degradation products from aqueous solution by surfactant-modified pillared clays , 2007 .

[8]  G. Walker,et al.  Adsorption Behavior of Anionic Reactive Dyes on H‐type Activated Carbon: Competitive Adsorption and Desorption Studies , 2007 .

[9]  C. Moreno-Castilla,et al.  Removal of diuron and amitrole from water under static and dynamic conditions using activated carbons in form of fibers, cloth, and grains. , 2007, Water research.

[10]  E. Ayranci,et al.  Adsorption kinetics and isotherms of pesticides onto activated carbon-cloth. , 2005, Chemosphere.

[11]  M. Valcárcel,et al.  Present and future applications of carbon nanotubes to analytical science , 2005, Analytical and bioanalytical chemistry.

[12]  Jianmeng Chen,et al.  How to accurately assay the algal toxicity of pesticides with low water solubility. , 2005, Environmental pollution.

[13]  L. F. Melo,et al.  High-performance liquid chromatographic determination of pesticides in tomatoes using laboratory-made NH2 and C18 solid-phase extraction materials. , 2005, Journal of chromatography. A.

[14]  Minsheng Huang,et al.  Influence of pH on pesticide sorption by soil containing wheat residue-derived char. , 2005, Environmental pollution.

[15]  Rüdiger Frank Jacob Fraden: Handbook of modern sensors: physics, designs, and applications , 2005 .

[16]  Minsheng Huang,et al.  pH-dependence of pesticide adsorption by wheat-residue-derived black carbon. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[17]  K. Jones,et al.  Evaluation of toxicity of the pesticides, chlorpyrifos and arsenic, in the presence of compost humic substances in aqueous systems. , 2003, Journal of hazardous materials.

[18]  Andrew Parker,et al.  Pesticides and other micro-organic contaminants in freshwater sedimentary environments—a review , 2003 .

[19]  N. Furusawa,et al.  Matrix solid-phase dispersion extraction and high-performance liquid chromatographic determination of residual sulfonamides in chicken. , 2001, Journal of chromatography. A.

[20]  I. Ali,et al.  Leaching of Triazine Pesticides in Loamy Soil and their Determination by Reversed Phase HPLC , 2001 .

[21]  T. Okano,et al.  Studies on Removal Efficiency of Rice Bran for Pesticides , 2001 .

[22]  M. Malfatto,et al.  Multiresidue Analysis of Organic Pollutants in Water by SPE with a C8 and SDVB Combined Cartridge , 1999 .

[23]  J. Fritz Analytical Solid-Phase Extraction , 1999 .

[24]  Bingqing Wei,et al.  Production of short multi-walled carbon nanotubes , 1999 .

[25]  Analysis of trace atrazine and simazine in environmental samples by liquid chromatography-fluorescence detection with pre-column derivatization reaction. , 1998, Journal of chromatography. A.

[26]  S. Helliwell,et al.  Analytical chemistry of chlorpyrifos and diuron in aquatic ecosystems , 1998 .

[27]  J. Bernal,et al.  Determination of pesticide residues in waters from small loughs by solid-phase extraction and combined use of gas chromatography with electron-capture and nitrogen-phosphorus detection and high-performance liquid chromatography with diode array detection , 1997 .

[28]  T. Albanis,et al.  Multi-residue pesticide analysis in environmental water samples using solid-phase extraction discs and gas chromatography with flame thermionic and mass-selective detection , 1995 .

[29]  M. Mazet,et al.  Influence d'un traitement thermique ou chimique des charbons actifs sur l'adsorption de composés organiques , 1994 .

[30]  T. Albanis Runoff losses of EPTC, molinate, simazine, diuron, propanil and metolachlor in Thermaikos Gulf, N. Greece , 1991 .

[31]  C. Lim Sample preparation for high-performance liquid chromatography in the clinical laboratory , 1988 .

[32]  B. M. Petronio,et al.  Sorption capacities of graphitized carbon black in determination of chlorinate pesticides traces in water , 1980 .

[33]  J. Thurston Determination of Pesticide Residues in Water , 1961 .

[34]  C. H. Giles,et al.  786. Studies in adsorption. Part XI. A system of classification of solution adsorption isotherms, and its use in diagnosis of adsorption mechanisms and in measurement of specific surface areas of solids , 1960 .