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International Journal of Nanomedicine Volume 10, 2015 - Issue
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Original Research

Cytotoxicity and physicochemical characterization of iron–manganese-doped sulfated zirconia nanoparticles

Mohamed Qasim Al-Fahdawi1 Institute of Bioscience, Qatar University, Doha, Qatar
,
Abdullah Rasedee1 Institute of Bioscience, Qatar University, Doha, Qatar;2 Department of Veterinary Pathology and Microbiology, Faculty of Veterinary Medicine, Qatar University, Doha, QatarCorrespondence[email protected]
,
Mothanna Sadiq Al-Qubaisi1 Institute of Bioscience, Qatar University, Doha, Qatar
,
Fatah H Alhassan3 Catalysis Science and Technology Research Centre, Faculty of Science, Qatar University, Doha, Qatar;4 Department of Chemistry, Faculty of Science, Qatar University, Doha, Qatar
,
Rozita Rosli1 Institute of Bioscience, Qatar University, Doha, Qatar
,
Mohamed Ezzat El Zowalaty1 Institute of Bioscience, Qatar University, Doha, Qatar;5 Biomedical Research Center, Qatar University, Doha, Qatar
,
Seïf-Eddine Naadja6 Department of Cell and Molecular Biology, Faculty of Biotechnology and Biomolecular Sciences, Universiti Putra Malaysia (UPM), Serdang, Selangor, Malaysia
,
Thomas J Webster7 Department of Chemical Engineering, Northeastern University, Boston, MA, USA;8 Center of Excellence for Advanced Materials Research, King Abdulaziz University, Jeddah, Saudi Arabia
&
Yun Hin Taufiq-Yap3 Catalysis Science and Technology Research Centre, Faculty of Science, Qatar University, Doha, Qatar;4 Department of Chemistry, Faculty of Science, Qatar University, Doha, Qatar
 show all
Pages 5739-5750 | Published online: 10 Sep 2015

References

  • ReddyBMPatilMKOrganic syntheses and transformations catalyzed by sulfated zirconiaChem Rev200910962185220819408954
  • YadavGDNairJJSulfated zirconia and its modified versions as promising catalysts for industrial processesMicroporous Mesoporous Mater1999331–3148
  • BrownASCHargreavesJSJSulfated metal oxide catalysts. Superactivity through superacidity?Green Chem199911720
  • ClarkJHSolid acids for green chemistryAcc Chem Res200235979179712234209
  • DelahayGEnsuqueECoqBFiguérasFSelective catalytic reduction of nitric oxide byn-decane on Cu/sulfated-zirconia catalysts in oxygen rich atmosphere: effect of sulfur and copper contentsJ Catal19981751715
  • EcormierMAWilsonKLeeAFStructure–reactivity correlations in sulphated-zirconia catalysts for the isomerisation of α-pineneJ Catal200321515765
  • DateAAPatravaleVBCurrent strategies for engineering drug nanoparticlesCurr Opin Colloid Interface Sci200493–4222235
  • BondGCMetal-Catalysed Reactions of HydrocarbonsNew YorkSpringer2006
  • HafnerABraesSEfficient trifluoromethylation of activated and non-activated alkenyl halides by using (trifluoromethyl) trimethylsilaneAdv Synth Catal20113531630443048
  • PissuwanDValenzuelaSMCortieMBTherapeutic possibilities of plasmonically heated gold nanoparticlesTrends Biotechnol2006242626716380179
  • Thibault-StarzykFStanIAbellóSQuantification of enhanced acid site accessibility in hierarchical zeolites – the accessibility indexJ Catal200926411114
  • CarnitiPGervasiniAMarzoMAbsence of expected side-reactions in the dehydration reaction of fructose to HMF in water over niobic acid catalystCatal Commun2011121211221126
  • ChizalletCRaybaudPPseudo-bridging silanols as versatile Brønsted acid sites of amorphous aluminosilicate surfacesAngew Chem Int Ed Engl200948162891289319153974
  • DongSHanCZhengBZhangMHuangFPreparation of two new [2]rotaxanes based on the pillar[5]arene/alkane recognition motifTetrahedron Lett2012532836683671
  • KašparJFornasieroPNanostructured materials for advanced automotive de-pollution catalystsJ Solid State Chem20031711–21929
  • KuhnJNHuangWTsungCKZhangYSomorjaiGAStructure sensitivity of carbon-nitrogen ring opening: impact of platinum particle size from below 1 to 5 nm upon pyrrole hydrogenation product selectivity over monodisperse platinum nanoparticles loaded onto mesoporous silicaJ Am Chem Soc200813043140261402718834126
  • TrovarelliAZamarFLlorcaJde LeitenburgCDolcettiGKissJTNanophase fluorite-structured CeO 2–ZrO 2catalysts prepared by high-energy mechanical millingJ Catal19971692490502
  • YanJYuDLiHSunPHuangHNaY zeolites modified by La3+ and Ba2+: the effect of synthesis details on surface structure and catalytic performance for lactic acid to acrylic acidJournal of Rare Earths2010285803806
  • ZhouLXuJLiXWangFMetal oxide nanoparticles from inorganic sources via a simple and general methodMater Chem Phys2006971137142
  • AghapoorKEbadi-NiaLMohsenzadehFMohebi MoradMBalavarYDarabiHRSilica-supported bismuth(III) chloride as a new recyclable heterogeneous catalyst for the Paal–Knorr pyrrole synthesisJ Organomet Chem2012708–7092530
  • LiuCWangJLiYOne-pot synthesis of 3,4-dihydropyrimidin-2-(1H)-(thio)ones using strontium(II) nitrate as a catalystJ Mol Catal A Chem20062581–2367370
  • ZouXXLiGDWangYNDirect conversion of urea into graphitic carbon nitride over mesoporous TiO2 spheres under mild conditionChem Commun (Camb)20114731066106821079825
  • KumarDReddyVBMishraBGRanaRKNadagoudaMNVarmaRSNanosized magnesium oxide as catalyst for the rapid and green synthesis of substituted 2-amino-2-chromenesTetrahedron2007631530933097
  • YanWWangRXuZA novel, practical and green synthesis of Ag nanoparticles catalyst and its application in three-component coupling of aldehyde, alkyne, and amineJ Mol Catal A Chem20062551–28185
  • NaikMAMishraBGDubeyACombustion synthesized WO3–ZrO2 nanocomposites as catalyst for the solvent-free synthesis of coumarinsColloids Surf A Physicochem Eng Asp20083171–3234238
  • SamantaraySHotaGMishraBGPhysicochemical characterization and catalytic applications of MoO 3–ZrO 2 composite oxides towards one pot synthesis of amidoalkyl naphtholsCatal Commun2011121312551259
  • ZhangXDuAJLeePSunDDLeckieJOGrafted multifunctional titanium dioxide nanotube membrane: separation and photodegradation of aquatic pollutantAppl Catal B2008841–2262267
  • KatadaNEndoJNotsuKYasunobuNNaitoNNiwaMSuperacidity and catalytic activity of sulfated zirconiaJ Phys Chem B2000104441032110328
  • ReddyBMPatilMKOrganic syntheses and transformations catalyzed by sulfated zirconiaChemical reviews200910962185220819408954
  • PatilMKPrasadANReddyBMZirconia-based solid acids: green and heterogeneous catalysts for organic synthesisCurrent Organic Chemistry2011152339613985
  • SongXSayariASulfated zirconia-based strong solid-acid catalysts: recent progressCat Rev Sci Eng1996383329412
  • Al-QubaisiMRosliRSubramaniTGoniothalamin selectively induces apoptosis on human hepatoblastoma cells through caspase-3 activationNat Prod Res201327232216221823767409
  • Al-QubaisiMRozitaRYeapSKOmarARAliAMAlitheenNBSelective cytotoxicity of goniothalamin against hepatoblastoma HepG2 cellsMolecules20111642944295921471934
  • Al-QubaisiMSRasedeeAFlaifelMHCytotoxicity of nickel zinc ferrite nanoparticles on cancer cells of epithelial originInt J Nanomedicine201382497250823885175
  • Al-QubaisiMSRasedeeAFlaifelMHInduction of apoptosis in cancer cells by NiZn ferrite nanoparticles through mitochondrial cytochrome C releaseInt J Nanomedicine201384115412924204141
  • MftahAAlhassanFHAl-QubaisiMSPhysicochemical properties, cytotoxicity, and antimicrobial activity of sulphated zirconia nanoparticlesInt J Nanomedicine20151076577425632233
  • AlhassanFHRashidUTaufiq-YapYHSynthesis of waste cooking oil-based biodiesel via effectual recyclable bi-functional Fe2O3-MnO-SO42−/ZrO2 nanoparticle solid catalystFuel20151423845
  • AlhassanFHRashidUYunusRKamaliahSIbrahimLMTaufiq-YapYHSynthesis of ferric–manganese doped tungstated zirconia nanoparticles as heterogeneous solid superacid catalyst for biodiesel production from waste cooking oilInternational Journal of Green Energy2015129987994
  • JentoftFCHahnAKröhnertJIncorporation of manganese and iron into the zirconia lattice in promoted sulfated zirconia catalystsJ Catal20042241124137
  • AlhassanFHRashidUAl-QubaisiMSRasedeeATaufiq-YapYHThe effect of sulfate contents on the surface properties of iron–manganese doped sulfated zirconia catalystsPowder Technol2014253809813
  • ChengZYangHYuLCuiYFengSPreparation and magnetic properties of Y3Fe5O12 nanoparticles doped with the gadolinium oxideJ Magn Magn Mater20063021259262
  • PattersonALThe Scherrer formula for X-ray particle size determinationThe Physical Review19395610978
  • DrofenikMLisjakDMakovecDThe synthesis and properties of magnetic nanoparticles. Paper presented at:The Materials Science Forum2005494
  • ScheithauerMBoschESchubertUASpectroscopic and microscopic characterization of iron- and/or manganese-promoted sulfated zirconiaJ Catal19981771137146
  • SamantaraySKarPHotaGMishraBGSulfate grafted iron stabilized zirconia nanoparticles as efficient heterogenous catalysts for solvent-free synthesis of xanthenediones under microwave irradiationInd Eng Chem Res2013521758625870
  • WuYQinLZhangGChenLGuoXLiuMPorous solid superacid SO42−/Fe2–x ZrxO3 fenton catalyst for highly effective oxidation of X-3B under visible lightInd Eng Chem Res201352471669816708
  • WeckhuysenBMWangDRosynekMPLunsfordJHConversion of methane to benzene over transition metal ion ZSM-5 zeolites: II. Catalyst characterization by X-ray photoelectron spectroscopyJ Catal19981752347351
  • BiMLiHPanWPLloydWGDavisBHThermal studies of metal promoted sulfated zirconiaPreprints of Papers-American Chemical Society, Division of Fuel Chemistry1996417781
  • KhalafHATextural properties of sulfated iron hydroxide promoted with aluminumMonatsh Chem20091406669674
  • ClearfieldASerretteGPDKhazi-SyedAHNature of hydrous zirconia and sulfated hydrous zirconiaCatal Today1994202295312
  • MekhemerGAHKhalafHAMansourSAANohmanAKHSulfated alumina catalysts: consequences of sulfate content and sourceMonatsh Chem20051361220072016
  • CostaAABragaPRSde MacedoJLDiasJADiasSCLStructural effects of WO3 incorporation on USY zeolite and application to free fatty acids esterificationMicroporous Mesoporous Mater20121471142148
  • SantosJSDiasJADiasSCLMixed salts of cesium and ammonium derivatives of 12-tungstophosphoric acid: synthesis and structural characterizationAppl Catal A Gen20113941–2138148
  • YamamotoTTanakaTTakenakaSStructural analysis of iron and manganese species in iron- and manganese-promoted sulfated zirconiaJ Phys Chem B19991031323852393
  • GarvieRCGossMFIntrinsic size dependence of the phase transformation temperature in zirconia microcrystalsJ Mater Sci198621412531257
  • ButtHJCappellaBKapplMForce measurements with the atomic force microscope: technique, interpretation and applicationsSurf Sci Rep2005591–61152
  • LiYSomorjaiGANanoscale advances in catalysis and energy applicationsNano Lett20101072289229520524636

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