App Surf Sci 2012, 258:7515 CrossRef 7 Khan SB,

App Surf Sci 2012, 258:7515.CrossRef 7. Khan SB, Alamry KA, Marwani HM, Asiri AM, Rahman MM: Synthesis and environmental applications of cellulose/ZrO 2 nanohybrid as a selective adsorbent for nickel ion. Compos Part B-Eng 2013,

50:253.CrossRef 8. Asiri AM, Khan SB, Alamry KA, Marwani HM, Rahman MM: Growth of Mn 3 O 4 on cellulose matrix: nanohybrid as a solid phase adsorbent for trivalent chromium. Appl Surf Sci 2013, 270:539.CrossRef 9. Leyva-Ramos R, Rangel-Mendez JR, Mendoza-Barron J, Fuentes-Rubio L, Guerrero-Coronado RM: Adsorption of cadmium(II) from aqueous solution on activated carbon. Water Sci Technol 1997, 35:205. 10. Ensafi AA, Ghaderi AR: On-line solid phase selective separation and preconcentration of Cd(II) by solid-phase extraction using {Selleck Anti-diabetic Compound Library|Selleck Antidiabetic Compound Library|Selleck Anti-diabetic Compound Library|Selleck Antidiabetic Compound Library|Selleckchem Anti-diabetic Compound Library|Selleckchem Antidiabetic Compound Library|Selleckchem Anti-diabetic Compound Library|Selleckchem Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|Anti-diabetic Compound Library|Antidiabetic Compound Library|buy Anti-diabetic Compound Library|Anti-diabetic Compound Library ic50|Anti-diabetic Compound Library price|Anti-diabetic Compound Library cost|Anti-diabetic Compound Library solubility dmso|Anti-diabetic Compound Library purchase|Anti-diabetic Compound Library manufacturer|Anti-diabetic Compound Library research buy|Anti-diabetic Compound Library order|Anti-diabetic Compound Library mouse|Anti-diabetic Compound Library chemical structure|Anti-diabetic Compound Library mw|Anti-diabetic Compound Library molecular weight|Anti-diabetic Compound Library datasheet|Anti-diabetic Compound Library supplier|Anti-diabetic Compound Library in vitro|Anti-diabetic Compound Library cell line|Anti-diabetic Compound Library concentration|Anti-diabetic Compound Library nmr|Anti-diabetic Compound Library in vivo|Anti-diabetic Compound Library clinical trial|Anti-diabetic Compound Library cell assay|Anti-diabetic Compound Library screening|Anti-diabetic Compound Library high throughput|buy Antidiabetic Compound Library|Antidiabetic Compound Library ic50|Antidiabetic Compound Library price|Antidiabetic Compound Library cost|Antidiabetic Compound Library solubility dmso|Antidiabetic Compound Library purchase|Antidiabetic Compound Library manufacturer|Antidiabetic Compound Library research buy|Antidiabetic Compound Library order|Antidiabetic Compound Library chemical structure|Antidiabetic Compound Library datasheet|Antidiabetic Compound Library supplier|Antidiabetic Compound Library in vitro|Antidiabetic Compound Library cell line|Antidiabetic Compound Library concentration|Antidiabetic Compound Library clinical trial|Antidiabetic Compound Library cell assay|Antidiabetic Compound Library screening|Antidiabetic Compound Library high throughput|Anti-diabetic Compound high throughput screening| carbon active modified with BV-6 methyl thymol blue. J Hazard Mater 2007, 148:319.CrossRef 11. Rahman GANT61 nmr MM, Khan SB, Marwani HM, Asiri AM, Alamry KA, Al-Youbi AO: Selective determination of gold(III) ion using CuO microsheets as a solid phase adsorbent prior by ICP-OES measurement. Talanta 2013, 104:75.CrossRef 12. Rahman MM, Khan SB, Marwani HM, Asiri AM, Alamry KA: Selective iron(III) ion uptake using CuO-TiO 2 nanostructure by inductively coupled plasma-optical emission spectrometry. Chem Central J 2012, 6:158.CrossRef 13. Xi G, Yi P, Zhu Y, Xu L, Zhang W, Yu W, Qian Y: Preparation of beta-MnO

2 nanorods through a gamma-MnOOH precursor route. Mater Res Bull 2004, 39:1641.CrossRef 14. Kamat VP, Huehn R, Nicolaescu R: A sense and shoot approach for photocatalytic degradation of organic contaminants in water.

J Phys Chem B 2002, 106:788.CrossRef 15. Lin HM, Tzeng SJ, Hsiau PJ, Tsai WL: Electrode effects on gas sensing properties of nanocrystalline zinc oxide. Nanostruct Mater 1998, 10:465.CrossRef 16. Xu JQ: Pan Diflunisal QY, Shun YA, Tian ZZ: Grain size control and gas sensing properties of ZnO gas sensor. Sens Actuators B Chem 2000, 66:277.CrossRef 17. Hu ZS: Oskam G, Searson PC: Influence of solvent on the growth of ZnO nanoparticles. J Colloid Interf Sci 2003, 263:454.CrossRef 18. Chen SJ, Lia LH: Preparation and characterization of nanocrystalline zinc oxide by a novel solvothermal oxidation route. J Cryst Growth 2003, 252:184.CrossRef 19. Khan SB, Faisal M, Rahman MM, Jamal A: Low-temperature growth of ZnO nanoparticles: photocatalyst and acetone sensor. Talanta 2011, 85:943.CrossRef 20. Faisal M, Khan SB, Rahman MM, Jamal A: Role of ZnO-CeO 2 nanostructures as a photo-catalyst and chemi-sensor. J Mater Sci Technol 2011, 27:594.CrossRef 21. Nandi SK, Chakraborty S, Bera MK, Maiti CK: Structural and optical properties of ZnO films grown on silicon and their applications in MOS devices in conjunction with ZrO 2 as a gate dielectric. Bull Mater Sci 2007, 30:247.CrossRef 22.

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