Structural And Magnetic Studies Of Co 0.6zn 0.4fe 2o 4 Nanoferrite Synthesized By Solution Combustion Method

dc.creatorRani R.
dc.creatorDhiman P.
dc.creatorSharma S.K.
dc.creatorSingh M.
dc.date2012
dc.date2015-06-25T20:23:44Z
dc.date2015-11-26T15:19:07Z
dc.date2015-06-25T20:23:44Z
dc.date2015-11-26T15:19:07Z
dc.date.accessioned2018-03-28T22:28:40Z
dc.date.available2018-03-28T22:28:40Z
dc.identifier
dc.identifierSynthesis And Reactivity In Inorganic, Metal-organic And Nano-metal Chemistry. , v. 42, n. 3, p. 360 - 363, 2012.
dc.identifier15533174
dc.identifier10.1080/15533174.2011.611062
dc.identifierhttp://www.scopus.com/inward/record.url?eid=2-s2.0-84860485579&partnerID=40&md5=5a409d583a21a113c7d5a1143c41b3a4
dc.identifierhttp://www.repositorio.unicamp.br/handle/REPOSIP/90072
dc.identifierhttp://repositorio.unicamp.br/jspui/handle/REPOSIP/90072
dc.identifier2-s2.0-84860485579
dc.identifier.urihttp://repositorioslatinoamericanos.uchile.cl/handle/2250/1259671
dc.descriptionCo 0.6Zn 0.4Fe 2O 4 nanomagnetic system is prepared by solution combustion method. The powder sample is characterized by X-ray diffraction (XRD), transmission electron microscope analysis (TEM), Fourier transform infrared spectroscopy (FTIR), Mssbauer spectroscopy, and superconducting quantum interference device (SQUID; at low and room temperatures). The average crystallite sizes of the prepared samples obtained from XRD is 22 nm, which is well confirmed by the size obtained from TEM. The magnetic study shows that sample is ferromagnetic at room temperature. This result is also supported by Mssbauer spectrum obtained at room temperature. Copyright © Taylor & Francis Group, LLC.
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dc.descriptionRaman, N., Sobha, S., Thamaraichelvan, A., A novel bioactive tyramine derived schiff base and its transition metal complexes as selective dna binding agents (2011) Spectrochim. Acta, A, 78, pp. 888-898
dc.descriptionNayak, S., Gamez, P., Kozlevc, B., Pevec, A., Roubeau, O., Dehnen, S., Reedijk, J., Coordination compounds from the planar tridentate schiffbase ligand 2-methoxy-6((quinolin-8-ylimino)methyl)phenol (mqmph) with several transition metal ions: Use of [feiii(mqmp)(ch3oh)cl2] in the catalytic oxidation of alkanes and alkenes (2010) Polyhedron, 29, pp. 2291-2296
dc.descriptionGupta, K.C., Sutara, A.K., Lin, C.C., Polymer-supported schiff base complexes in oxidation reactions (2009) Coord. Chem. Rev., 253, pp. 1926-1946
dc.descriptionChu, Z., Huang, W., Wang, L., Gou, S., Chiral 27-membered [3 + 3] schiffbase macrocycles and their reactivity with first-row transition metal ions (2008) Polyhedron, 27, pp. 1079-1092
dc.descriptionMalacea, R., Poli, R., Manoury, E., Asymmetric hydrosilylation, transfer hydrogenation and hydrogenation of ketones catalyzed by iridium complexes (2010) Coord. Chem. Rev., 254, pp. 729-752
dc.descriptionTanaka, K., Shimoura, R., Caira, M.R., Synthesis crystal structures and photochromic properties of novel chiral schiff base macrocycles (2010) Tetrahedron Lett., 51, pp. 449-452
dc.descriptionAlizadeh, K., Parooi, R., Hashemi, P., Rezaei, B., Ganjali, M.R., A new schiff's base ligand immobilized agarose membrane optical sensor for selective monitoring of mercury ion (2011) J. Hazard Mater., 186, pp. 1794-1800
dc.descriptionSui, Y., Hu, R.H., Liu, D.S., Wu, Q., Adjustment of the structures and biological activities by the ratio of nil to re for two sets of schiff base complexes [(nil)nre] (n=1 or 2
dc.descriptionre=la or ce) (2011) Inorg. Chem. Commun., 14, pp. 396-398
dc.descriptionCheng, K., Zheng, Q.Z., Hou, J., Zhou, Y., Liu, C.H., Zhao, J., Zhu, H.L., Synthesis molecular modeling and biological evaluation of psb as targeted antibiotics (2010) Bioorg. Med. Chem., 18, pp. 2447-2455
dc.descriptionAfkhami, A., Khajavi, F., Khanmohammadi, H., Spectrophotometric determination of acidity and tautomeric constants and hydrogen bonding strength for a new schiff base using hard modeling and multivariate curve resolution alternative least squares methods (2009) Anal. Chim. Acta, 634, pp. 180-185
dc.descriptionBharti, S.K., Nath, G., Tilak, R., Singh, S.K., Synthesis anti-bacterial and anti-fungal activities of some novel schiff bases containing 2,4-disubstituted thiazole ring (2010) Eur. J. Med. Chem., 45, pp. 651-660
dc.descriptionDa Silva, C.M., Da Silva, D.L., Modolo, L.V., Alves, R.B., De Resende, M.A., Martins, C.V.B., De F́atima, A., Schiff bases: A short review of their antimicrobial activities (2011) J. Adv. Res., 2, pp. 1-8
dc.descriptionEl-Boraey, H.A., Emam, S.M., Tolan, D.A., El-Nahas, A.M., Structural studies and anticancer activity of a novel (n6o4) macrocyclic ligand and its cu(II) complexes (2011) Spectrochim. Acta, A, 78, pp. 360-370
dc.descriptionMohammadi, K., Thompson, K.H., Patrick, B.O., Storr, T., Martins, C., Polishchuk, E., Yuen, V.G., Orvig, C., Synthesis and characterization of dual function vanadyl, gallium and indium curcumin complexes for medicinal applications (2005) J. Inorg. Biochem., 99, p. 2217
dc.descriptionTajbakhsh, S., Mohammadi, K., Deilami, I., Zandi, K., Fouladvand, M., Ramedani, E., Asayesh, G., Antibacterial activity of indium curcumin and indium diacetylcurcumin (2008) Afr. J. Biotechnol., 7, pp. 3832-3835
dc.descriptionMohammadi, K., Zahedi, M., Tridentate schiff base compounds of 2-aminophenol: Synthesis, characterization and complexation with iiia elements (2011) Global J. Inorg. Chem., 3, p. 2
dc.descriptionAsadi, M., Mohammadikish, M., Mohammadi, K., Mousavi, P., Javidnia, K., Miri, R., Complexation of group iiia metals with asymmetric tridentate ligands: Synthesis, characterization, formation constants and cytotoxicity (2009) Inorg. Chim. Acta, 362, pp. 4906-4912
dc.descriptionFellner, M., Dillenburg, W., Rösch, F., Thews, O., Imaging changes of pglycoprotein activity in vivo with 68ga-schiff base (2010) Nucl. Med. Biol., 37, pp. 677-726
dc.descriptionBandoli, G., Dolmella, A., Tisato, F., Porchia, M., Refosco, F., Mononuclear six-coordinated ga(iii) complexes:acomprehensive survey (2009) Coord. Chem. Rev., 253, pp. 56-77
dc.descriptionWang, J.Q., Huang, L., Gao, L., Zhu, J.H., Wang, Y., Fan, X., Zou, Z., A small and robust al(iii)-chemosensor based on bis-schiff base n,n'-(1,4 phenylenedimethylidyne)bis-1,4-benzene diamine (2008) Inorg. Chem. Commun., 11, pp. 203-206
dc.descriptionJain, A.K., Gupta, A., Bohra, R., Lorenz, I.P., Mayer, P., Synthesis and structural elucidation of some novel aluminium(iii) complexes with schiff bases: Crystal and molecular structure of [al{o(c6h4)ch = nc6h5}2{ho(c6h4)ch = nc6h5}2]br (2006) Polyhedron, 25, pp. 654-662
dc.descriptionLeẃinski, J., Zachara, J., Justyniak, I., Dranka, M., Hydrogen-bond supramolecular structure of group 13 schiff base complexes (2005) Coord. Chem. Rev., 249, pp. 1185-1199
dc.descriptionSammis, G.M., Jacobsen, E.N., Highly enantioselective, catalytic conjugate addition of cyanide to alpha,beta-unsaturated imides (2003) J. Am. Chem. Soc., 125, p. 4442
dc.descriptionTaylor, M.S., Jacobsen, E.N., Enantioselective michael additions to a,ß-unsaturated imides catalyzed by a salen-al complex (2003) J. Am. Chem. Soc., 125, p. 11204
dc.descriptionIida, T., Yamamoto, N., Sasai, H., Shibasaki, M., Cheminform abstract: New asymmetric reactions using a gallium complex: A highly enantioselective ring opening of epoxides with thiols catalyzed by a gallium×lithium×bis(binaphthoxide) complex (1997) J. Am. Chem. Soc., 28, p. 4783
dc.descriptionZhu, C.J., Yuan, F., Gu, W.J., Pan, Y., The first example of enantioselective isocyanosilylation of meso epoxideswith tmscn catalyzed by novel chiral organogallium and indium complexes (2003) Chem. Commun., 692
dc.descriptionAkhbari, K., Alizadeh, K., Morsali, A., Zeller, M., A new twodimensional thallium(i) coordination polymer with 4-hydroxybenzylidene 4-aminobenzoate: Thermal, structural, solution and solvatochromic studies (2009) Inorg. Chim. Acta, 362, pp. 2589-2594
dc.descriptionGalanski, M., Arion, V.B., Jakupec, M.A., Keppler, B.K., Recent developments in the field of tumor-inhibiting metal complexes (2003) Curr. Pharm. Des., 9, p. 2078
dc.descriptionJakupec, M.A., Keppler, B.K., Gallium in cancer treatment (2004) Curr. Top. Med. Chem., 4, p. 1575
dc.descriptionShavit, M., Tshuva, E.Y., Preparation and x-ray structures of ti(iv) complexes of bis(carboxylato) ligands-formation of mono-, di-, tetra-, and hexanuclear complexes with or without or and μ-o ligands (2008) Eur. J. Inorg. Chem., pp. 1467-1474
dc.descriptionDubois, L., Pecaut, J., Charlot, M.-F., Baffert, C., Collomb, M.-N., Deronzier, A., Latour, J.-M., Drastically enhance the rates of oxo exchange and hydrogen peroxide disproportionation by oxo manganese compounds of potential biological significance (2008) Chem. Eur. J., 14, pp. 3013-3025
dc.descriptionZhao, M., Helms, B., Slonkina, E., Friedle, S., Lee, D., DuBois, J., Hedman, B., Lippard, S.J., Iron complexes of dendrimer-appended carboxylates for activating dioxygen and oxidizing hydrocarbons (2008) J. Am. Chem. Soc., 130, pp. 4352-4363
dc.descriptionYang, C.-I., Wernsdorfer, W., Tsai, Y.-J., Chung, G., Kuo, T.-S., Lee, G.-H., Shieh, M., Tsai, H.L., Mixed-valence tetra-and hexanuclear manganese complexes from the flexibility of pyridine-containing ß-diketone ligands (2008) Inorg. Chem., 47, pp. 1925-1939
dc.descriptionVasconcellos-Dias, M., Nunes, C.D., Vaz, P.D., Ferreira, P., Calhorda, M.J., Pyridine carboxylate complexes of moii as active catalysts in homogeneous and heterogeneous polymerization (2007) Eur. J. Inorg. Chem., 18, pp. 2917-2925
dc.descriptionJong-Keun, S., Long-Xuan, Z., Arjun, B., Pritam, T., Radha, K., Younghwa, N., Yurngdong, J., Eung-Seok, L., Synthesis of 2,6-diaryl-substituted pyridines and their antitumor activities (2008) Eur. J. Med. Chem., 43, pp. 675-682
dc.descriptionGarcia-Friaza, G., Fernandez-Betello, A., Perez, J.M., Prieto, M.J., Moreno, V., Synthesis and characterization of palladium(II) and platinum(II) complexes with schiff bases derivatives of 2-pyridincarboxyaldehyde. Study of their interaction with dna (2006) J. Inorg. Biochem., 100, pp. 1368-1377
dc.descriptionAsadi, M., Hemmateenejad, B., Mohammadikish, M., Synthesis characterization, and formation constant of hexacoordinate iron(iii) complexes (2010) J. Coord. Chem., 63, pp. 124-135
dc.descriptionKumar, D.N., Garg, B.S., Synthesis and spectroscopic studies of complexes of zinc(II) with n2o 2 donor groups (2006) Spectrochim. Acta, A, 64, p. 141
dc.descriptionNakamoto, K., (1997) Infrared and Raman Spectra of Inorganic and Coordination Compounds, , 5th Edn.
dc.descriptionWiley: New York
dc.descriptionMohamed, G.G., Wahab, Z.H.A.E., Mixed ligand complexes of bis(phenylimine) schiff base ligands incorporating pyridinium moiety: Synthesis, characterization and antibacterial activity (2005) Spectrochim. Acta, A, 61, p. 1059
dc.descriptionKoksal, H., Tumer, M., Seria, S., Synthesis and characterisation of binuclear cu(ii), ni(II) and co(II) chelates with tetradentate schiff base ligands derived from 1,5- diaminonaphthalene (1996) Synth. React. Inorg. Met.-Org. Chem. Nano-Met. Chem., 26, p. 1577
dc.descriptionMcCollum, D.G., Fraser, C., Ostrander, R., Rheingold, A.L., Bosnich, B., Bimetallic reactivity. General synthesis of binucleatingmacrocyclic ligands containing 6-and 4-coordinate sites (1994) Inorg. Chem., 33, p. 2338
dc.descriptionFelicio, R.C., Canalherio, E.T.G., Dockal, E.R., Preparation characterization and thermogravimetric studies of [n,n'-cis-1,2-cyclohexylenebis(salicylideneaminato)]cobalt(II) and [n,n'-(+/-)-trans-1,2-cyclo-hexylene bis(salicylideneaminato)]cobalt(ii) (2001) Polyhedron, 20, p. 261
dc.descriptionLeggett, D.L., (1985) Computational Methods for the Determination of Formation Constant, , Plenum Press: New York
dc.descriptionSantos, M.A., Gil, M., Marques, S., Gano, L., Cantinho, G., Chaves, S., N-carboxyalkyl derivatives of 3-hydroxy-4-pyridinones: Synthesis, complexation with fe(iii), al(iii) and ga(iii) and in vivo evaluation (2002) J. Inorg. Biochem., 92, p. 43
dc.descriptionMassey, A.G., (2000) Main Group Chemistry, , 2nd Edn.
dc.descriptionWiley: New York
dc.descriptionClementi, E., Raimondi, D.L., Reinhardt, W.P., Atomic screening constants from scf functions. Ii. Atoms with 37 to 86 electrons (1967) J. Chem. Phys., 47, p. 1300
dc.descriptionAsadi, M., Jamshid, K.A., Kianfar, A.H., Synthesis and thermodynamic studies of the dinuclear adducts between dimethyltin(iv) dichloride with salenH 2 andm(ii)(salen) complexes in chloroform (2008) J. Coord. Chem., 61, p. 1115
dc.descriptionAsadi, M., Mohammadikish, M., Mohammadi, K., Metallation of tetradentate n2o 2 schiff base with mn(ii), co(ii), cu(II) and zn(ii): Synthesis, characterization and formation constants measurement (2010) Cent. Eur. J. Chem., 8, pp. 291-299
dc.descriptionAsadi, M., Jamshid, K.A., Sarvestani, S.H., Synthesis characterization and equilibrium study of the dinuclear adducts formation between nickel(II) salen-type complexes with diorganotin(iv) dichlorides in chloroform (2007) Inorg. Chim. Acta, 360, p. 1725
dc.descriptionSarvestani, A.H., Asadi, M., Abbasi, M., Thermodynamic study of cobalt(iii) schiff base complexes in mixed etoh/H 2O (2007) J. Chem. Res., 56, pp. 56-59
dc.descriptionAsadi, M., Jamshid, K.A., Kianfar, A.H., Thermodynamic studies of the interaction of nickel(II) schiff base complexes with diorganotin( iv)dichlorides in non-aqueous solvents (2007) Synth. React. Inorg. Met.-Org. Nano-Met. Chem., 37, p. 77
dc.descriptionAsadi, M., Sarvestani, A.H., Synthesis characterization, and thermodynamics of tertiary phosphine cobalt(iii) schiff-base complexes (2001) Can. J. Chem., 79, pp. 1360-1365
dc.descriptionMoulton, B., Zaworotko, M.J., From molecules to crystal engineering: Supramolecular isomerism and polymorphism in network solids (2001) Chem. Rev., 101, pp. 1629-1658
dc.descriptionLin, J.Di., Cheng, J.W., Du, S.W., Five d10 3d metal-organic frameworks constructed from aromatic polycarboxylate acids and flexible imidazolebased ligands (2008) Cryst. Growth Des., 8, pp. 3345-3353
dc.descriptionFerey, G., Mellot-Draznieks, C., Serre, C., Millange, F., Crystallized frameworks with giant pores: Are there limits to the possible (2005) Chem. Rev., 38, pp. 217-225
dc.descriptionOckwig, N.W., Delgado-Friedrichs, O., O'Keeffe, M., Yaghi, O.M., Reticular chemistry: Occurrence and taxonomy of nets and grammar for the design of frameworks (2005) Chem. Rev., 38, pp. 176-182
dc.descriptionFang, R.Q., Zhang, X.M., Diversity of coordination architecture of metal 4,5-dicarboxyimidazole (2006) Inorg. Chem., 45, pp. 4801-4810
dc.descriptionWang, Y.L., Yuan, D.Q., Bi, W.H., Li, X., Li, X.J., Li, F., Gao, R., Synthesesand characterization of two 3d cobalt-organic frameworks from 2d honeycomb building blocks (2005) Cryst. Growth Des., 5, pp. 1849-1855
dc.descriptionLu, W.G., Jiang, L., Feng, X.L., Lu, T.B., Four 3d porous metal-organic frameworks with various layered and pillared motifs (2008) Cryst. Growth Des., 8, pp. 986-994
dc.descriptionYao, Y.L., Che, Y.X., Zheng, J.M., The coordination chemistry of benzimidazole-5,6-dicarboxylic acid with mn(ii), ni(ii), and ln(iii) complexes (ln = tb, ho, er, lu) (2008) Cryst. Growth Des., 8, pp. 2299-2306
dc.descriptionWang, S., Zhang, L.R., Li, G.H., Huo, Q.S., Liu, Y.L., Assembly of two 3-d metal-organic frameworks from cd(II) and 4,5-imidazoledicarboxylic acid or 2-ethyl-4,5-imidazoledicarboxylic acid (2008) CrystEngComm, 10, pp. 1662-1666
dc.descriptionNie, X.L., Wen, H.L., Wu, Z.S., Liu, D.B., Liu, C.B., Diaquabis(5-carboxy-2-methyl-1h-imidazole-4-carboxylato-k2n3,o4) cadmium(ii) (2007) Acta Crystallogr., E63, pp. 753-755
dc.descriptionZeng, J.Z., Yi, X.G., Lin, J.Y., Ying, S.M., Huang, G.S., Diaquabis(5-carboxy-2-methy-1h-imidazole-4-carboxylato-k2n3o4) manganese(ii) (2008) Acta Crystallogr., E64, p. 476
dc.descriptionLuo, Z.R., Zhuang, J.C., Wu, Q.L., Yin, X.H., Tan, S.W., Liu, J.Z., Two cobalt(II) complexes based on 2-propyl-4,5-imidazoledicarboxylic acid: Syntheses, crystal structures, and properties (2011) J. Coord. Chem., 64, pp. 1054-1062
dc.descriptionFeng, X., Liu, B., Wang, L.Y., Zhao, J.S., Wang, J.G., Ng, W.S., Shi, X.G., A series of lanthanide-organic polymers incorporating nitrogen-heterocyclic and aliphatic carboxylate mixed-ligands: Structures, luminescent and magnetic properties (2010) Dalton Trans., 39, pp. 8038-8049
dc.descriptionLiu, X.F., Ma, L.F., Wang, L.Y., Hydrothermal synthesis and crystal structure of a new 3d co(II) supramolecule bearing 2-propylimidazole-4,5-dicarboxylate (2010) J. Coord. Chem., 36, pp. 680-684
dc.descriptionMeng, C.X., Li, D.S., Zhao, J., Fu, F., Zhang, X.N., Tang, L., Wang, Y.Y., A novel cd(II) coordination polymer with helical units and mix-connected network topology constructed from 2-propyl-4,5-imidazoledicarboxylate and n-donor co-ligands (2009) Inorg. Chem. Commun., 12, pp. 793-795
dc.descriptionLi, S.J., Ji, L.L., Song, W.D., Hu, S.W., Qin, P.W., Diaquabis(4-carboxy-2-propyl-1h-imidazole-5-carboxylato-2n3o4) cobalt(ii)n,ndimethylformamid disolvate (2010) Acta Crystallogr., E66, pp. 1443-1444
dc.descriptionHao, C.J., Zhao, X.J., Diaquabis(4-carboxy-2-propyl-1h-imida-zole-5-carboxylato-k2n3o4)zinc(II) n,n-dimethylformamide disolvate (2010) Acta Cryst., Section E: Structure Reports Online, E66, p. 810
dc.descriptionLi, S.J., Ji, L.L., Song, W.D., Hu, S.W., Qin, P.W., Diaquabis(4-carboxy-2-propyl-1h-imida-zole-5-carboxylato-k2n3o4) cobalt(II) n,ndimethylformamide disolvate (2010) Acta Crystallogr., E66, pp. 1443-1444
dc.descriptionFun, H.K., Raj, S.S.S., Xiong, R.G., Zuo, J.L., Yu, Z., You, X.Z., A three-dimensional network coordination polymer, (terephthalato)( pyridine)cadmium, with blue fluorescent emission (1999) J. Chem. Soc., Dalton Trans., pp. 1915-1916
dc.descriptionSheldrick, G.M., (1997) SHELX-97, , Program for the Solution and Refinement of Crystal Structures
dc.descriptionUniversity of Göttingen: Göttingen, Germany
dc.descriptionLi, G., Hou, H.W., Li, L.K., Meng, X.R., Fan, Y.T., Zhu, Y., Novel pb(ii)zn(ii), and cd(II) coordination polymers constructed from ferrocenylsubstituted carboxylate and bipyridine-based ligands (2003) Inorg. Chem., 42, pp. 4995-5004
dc.descriptionBeletskaya, I., Tyurin, V.S., Tsivadze, A.Y., Guilard, R., Stern, C., Surpamolecular chemistry of metalloporphyrins (2009) Chem. Rev., 109, pp. 1659-1713
dc.descriptionLohmeijer, B.G., Schubert, U.S., Supramolecular engineering with macromolecules: An alternative concept for block copolymers (2002) Angew. Chem. Int. Ed., 41, pp. 3825-3829
dc.descriptionLiu, Y.F., Su, J.C., Li, W.H.W.J.G., First hydrotalcite-like sulfonate coordination network incorporating robust cationic layers and flexible interlayer interactions (2005) Inorg. Chem., 44, pp. 3890-3895
dc.descriptionJutzi, P., Lenze, N., Neumann, B., Stammler, H.G., [{Fe(C5H4)2} 3{Ga(C5H5N)}2]: A trinuclear gallium-bridged ferrocenophane with a carousel structure (2001) Angew. Chem. Int. Ed., 40, pp. 1423-1427
dc.descriptionSylvestre, I., Wolowska, J., Kilner, C.A., McInnes, E.J.L., Halcrow, M.A., Copper(II) complexes of thioether-substituted salcyen and salcyan derivatives and their silver(i) adducts (2005) Dalton Trans., pp. 3241-3249
dc.descriptionBaker, M.V., Lu, J.Z., Issa, T.B., Singh, P., Strauch, J., Synthesis and electrochemical characterization of new thioether-and ferrocene-containing copolymers (2004) Aust. J. Chem., 57, pp. 207-212
dc.descriptionScutaru, D., Tataru, L., Mazilu, I., Vata, M., Lixandru, T., Simionescu, C.R., Contributions to the synthesis of some ferrocene-containing antibiotics (1993) Appl. Organomet. Chem., 7, pp. 225-231
dc.descriptionSheldrick, G.M., (1997) SHELXS 97, , Program for the Solution of Crystal Structures
dc.descriptionUniversity of Göttingen: Göttingen, Germany
dc.descriptionSheldrick, G.M., (1997) SHELXS 97, , Program for the Solution of Crystal Structures
dc.descriptionUniversity of Göttingen: Göttingen, Germany
dc.descriptionLi, L.K., Song, Y.L., Hou, H.W., Fan, Y.T., Zhu, Y., Syntheses structures, and optical properties of ß- ferrocenylacrylate metal polymers (2005) Eur. J. Inorg. Chem., pp. 3238-3249
dc.descriptionGuo, D., Mo, H.G., Duan, C.Y., Lu, F., Meng, Q.J., Novel ferrocene-based mixed-metal coordination polymers (2002) J. Chem. Soc.
dc.descriptionDalton Trans., pp. 2593-2594
dc.descriptionSmolander, K., Ahlgŕen, M., Melńik, M., Skorsepa, J., Györyocá, K., Monomeric (dipropionato-o)(dithiourea-s)zinc(ii) (1994) Acta Cryst., C. (50), pp. 1900-1902
dc.descriptionRuf, M., Vahrenkamp, H., Molecular zinc oxide and sulfide complexes stabilized by pyrazolylborate ligands (1995) J. Chem. Soc.
dc.descriptionDalton Trans., pp. 1915-1916
dc.descriptionBeer, P.D., Blackburn, C., McAleer, J.F., Sikanyika, H., Redox-responsive crown ethers containing a conjugated link between the ferrocene moiety and a benzo crown ether (1990) Inorg. Chem., 29, pp. 378-381
dc.descriptionCarr, J.D., Coles, S.J., Hursthouse, M.B., Light, M.E., Munro, E.L., Tucker, J.H.R., Westwood, J., Facile control of the redox properties of ferrocenecontaining dipyridyl derivatives that bind platinum(ii) (2000) J. Organometallics., 19, pp. 3312-3315
dc.descriptionPanagopoulos, C.N., Georgion, E.P., Gavras, A.G., Composite zinc-fly ash coating on mild steel (2009) Surf. Coat. Technol., 204, pp. 37-41
dc.descriptionPraveen, B.M., Venkatesha, T.V., Naik, Y.A., Corrosion behavior of zn-tio 2 composite coating (2007) Synth. React Inorg. Met. Org. Chem., 37, pp. 461-465
dc.descriptionTuaweri, T.J., Wilcox, G.D., Behavior of zn-sio 2 electrodeposition in the presence of n,n-dimethyldodecylamine (2006) Surf. Coat. Technol., 200, pp. 5921-5930
dc.descriptionChen, L., Wang, L., Zeng, Z., Zhang, J., Effect of surfactant on the electrodeposition and wear resistance of ni-al2o3 composite coatings (2006) Mater. Sci Eng. A., 434, pp. 319-325
dc.descriptionPraveen, B.M., Venkatesha, T.V., Electrdeposition and properties of znnanosized tio 2 composite coatings (2008) Appl. Surf. Sci., 254, pp. 2418-2424
dc.descriptionPraveen, B.M., Venkatesha, T.V., Arthoba Naik, Y., Prashantha, K., Corrosion studies of carbon nanotubes-zn composite coating (2007) Surf. Coat. Technol., 201, pp. 5836-5842
dc.descriptionFustes, J., Gomes, A., Da Silva Perira, M.I., Zn-tio 2 nanocomposite films -Effect of bath composition (2008) J. Solid StateElectrochem., 12, pp. 1435-1443
dc.descriptionVlasa, A., Varvara, S., Pop, A., Burea, C., Muresan, L.M., Electrodeosited zn-tio 2 nanocomposite coatings and their corrosion behavior (2010) J. Appl. Electrochem., 40, pp. 1519-1527
dc.descriptionZheng, H.-Y., An, M.-Z., Lu, J.-F., Electrodeposition of zn-ni-al2o3 nanocomposite coating under ultrasound condition (2008) J. Alloy. Compd., 459, pp. 548-552
dc.descriptionLeon, O.A., Stutia, M.H., Hintermann, H.E., High temperature wear of an electroless ni-p-bn(h) composite coating (2003) Surf. Coat. Technol., 163-164, pp. 578-584
dc.descriptionMalathy, P., Natarajan, S.R., Nickel-boron nitride electrocomposite (1995) Metal Finishing., , June
dc.descriptionXie, Y.-J., Wang, M.-C., A feasibility study of preparing mcralx/bn composite coatings by electrospark deposition process J. Alloy. Compd, 2009 (484), pp. 21-24
dc.descriptionPompei, E., Mganin, L., Lecis, N., Cavallotti, P.L., Electrodeposition of nickel-bn composite coatings (2009) Electrochim. Acta., 54, pp. 2571-2574
dc.descriptionShi, L., Sun, C., Liu, W., Electrodeposited nickel-cobalt composite coating mos2 (2008) Appl. Surf. Sci., 254, pp. 6880-6885
dc.descriptionShi, L., Sun, C.F., Zhou, F., Liu, W.M., Electrdeposited nickel-cobalt composite coating containing nano-sized si3n4 (2005) Mater. Sci Eng. A., 397, pp. 190-194
dc.descriptionPraveen, B.M., Venkatesha, T.V., Electrodeposition and properties of zn-ni-cnt composite coatings (2009) J. Alloys. Compd., 482, pp. 53-57
dc.descriptionMatysina, Z.A., Chguprina, L.M., Zaginoichemko, S.Yu., Surface structure, roughness, energy and texture of crystals (1992) J. Phys. Chem. Solids., 53, pp. 167-174
dc.descriptionGomes, A., Da Silva Pereira, M.I., Pulsed electrodeposition of zn in the presence of surfactants (2006) Electrochim. Acta., 511, pp. 1342-1350
dc.descriptionXue, Y.-J., Zhu, D., Zhao, F., Electrodeposition and mechanical properties of ni -la2o3 nanocomposites (2004) J. Mater. Sci., 39, pp. 4063-4066
dc.descriptionChen, X.H., Chen, C.S., Xiao, H.N., Cheng, F.Q., Zheng, G., Yi, G.J., Corrosion behavior of carbon nanotubes-ni composite coating (2005) Surf. Coat. Technol., 191, pp. 351-356
dc.descriptionSkmoski, R., Nanomagnetics (2003) J. Phys.: Condens. Matter., 15, pp. R841-R896
dc.descriptionGhosh, B., Kumar, S., Poddar, A., Mazumdar, C., Banerjee, S., Reddy, V.R., Gupta, A., Spin glasslike behavior and magnetic enhancement in nanosized ni-zn ferrite system (2010) J. Appl. Phys., 108, p. 034307
dc.descriptionBhargava, H., Lakshmi, N., Sebastian, V., Reddy, V.R., Venugopalan, K., Gupta, A., Investigation of the large magnetic moment in nano-sized cu0.25co0.25zn0.5fe2o4 (2009) J. Phys. D: Appl. Phys., 42, p. 245003
dc.descriptionChiu, W.S., Radiman, S., Shukor, R.A., Abdullah, M.H., Khiew, P.S., Tunable coercivity of cofe2o4 nanoparticles via thermal annealing treatment (2008) J. Alloys Compd., 459, pp. 291-297
dc.descriptionArulmurugan, R., Vaidyanathan, G., Sendhilnathan, S., Jeyadevan, B., Preparation and properties of temperature-sensitive magnetic fluid having co0.5zn0.5fe2o4 andmn0.5zn0.5fe2o4 nanoparticles (2005) Physica B, 368, pp. 223-230
dc.descriptionMeaz, T.M., Attia, S.M., Abo Ela Ata, A.M., Effect of tetravalent titanium ions substitution on the dielectric properties of co-zn ferrites (2003) J. Magn. Magn. Mater., 257, pp. 296-305
dc.descriptionDuong, G.V., Turtelli, R.S., Hanh, N., Linh, D.V., Reissner, M., Michor, H., Fidler, J., Grossinger, R., Magnetic properties of nanocrystalline co1-xznxfe2o4 prepared by forced hydrolysis method (2006) J. Magn. Magn. Mater., 307, pp. 313-317
dc.descriptionKöseǒglu, Y., Baykal, A., Gozuak, F., Kavas, H., Structural and magnetic properties of coxzn1-xfe2o4 nanocrystals synthesized by microwave method (2009) Polyhedron, 28, pp. 2887-2892
dc.descriptionGul, I.H., Maqsood, A., Structural magnetic and electrical properties of cobalt ferrites prepared by the sol-gel route (2008) J. Alloys Compd., 465, pp. 227-231
dc.descriptionChengyi, H., Hao, Y., Qinghong, Z., Yaogang, L., Hongzhi, W., Preparation andmagnetic property analysis ofmonodisperse co-zn ferrite nanospheres (2010) J. Alloys Compd., 491, pp. 431-435
dc.descriptionPatil, V.G., Shirsath, S.E., More, S.D., Shukla, S.J., Jadhav, K.M., Effect of zinc substitution on structural and elastic properties of cobalt ferrite (2009) J. Alloys Compd., 488, pp. 199-203
dc.descriptionGozuak, F., Koseoglu, Y., Baykal, A., Kavas, H., Synthesis and characterization of coxzn1-xfe2o4 magnetic nanoparticles via a peg-assisted route (2009) J. Magn. Magn. Mater., 321, pp. 2170-2177
dc.descriptionFu, Y.P., Hsu, C.S., Tay, K.W., (2005) Jap. J. Appl. Phys., 44, pp. 1254-1257
dc.descriptionGeorge, M., Nair, S.S., John, A.M., Joy, P.A., Anantharaman, M.R., Structural magnetic and electrical properties of the sol-gel prepared li0.5fe2.5o4 fine particles (2006) J. Phys. D: Appl. Phys., 39, p. 900
dc.descriptionJiang, H.G., Ruhle, M., Lavernia, E.J., (1999) J. Mater. Res., 14, p. 549
dc.descriptionLi, W., Shen, F.L., Structural and magnetic properties of co1-xznxfe2o4 nanoparticles (2008) Chinese Phys. B, 17, pp. 1858-1862
dc.descriptionBrabers, V.A.M., The infrared absorption spectrum and the inversion degree of manganese ferrite (1969) Phys. Status Solidi, 33, p. 563
dc.descriptionWaldron, R., Infrared spectra of ferrites (1955) Phys. Rev., 99, pp. 1727-1735
dc.descriptionVaidyanthan, G., Sendhilnathan, S., Arulmurugan, R., Structural and magnetic properties of co1-xznxfe2o4 nanoparticles by co-precipitation method (2007) J. Magn. Magn. Mater., 313, pp. 293-299
dc.descriptionSinghal, S., Namgyal, T., Bansal, S., Chandra, K., Effect of zn substitution on the magnetic properties of cobalt ferrite nanoparticles prepared via solgel route (2010) J. Electromagn. Anal. Appl., 2, pp. 376-381
dc.descriptionSharma, S.K., Kumar, R., Kumar, S., Knobel, M., Meneses, C.T., Kumar, V.V.S., Role of interparticle interactions on the magnetic behavior of mg0.95mn0.05fe2o4 ferrite nanoparticles (2008) J. Phys: Condens. Matter, 20, p. 235214
dc.descriptionWu, K.H., Ting, T.H., Liu, C.I., Yang, C.C., Hsu, J.S., Electromagnetic and microwave absorbing properties of ni0.5zn0.5fe2o4/bamboo charcoal core-shell nanocomposites (2008) Compos. Sci. Technol., 68, pp. 132-139
dc.descriptionRani, R., Thakur, S., Singh, M., Processing and characterization of cobaltzinc nanoferrite AIP Conf. Pro, 2010, p. 55
dc.descriptionXu, Q.F., Chen, J.X., Zhang, W.H., Ren, Z.G., Li, L.X., Zhang, Y., Lang, J.P., Construction of [(?5-c5me5)ws3cu3]-based supramolecular compounds from preformed incomplete cubane-like clusters [pph4][(?5-c5me5)ws3(cux)3] (x = cn, br) (2006) Inorg. Chem., 45, pp. 4055-4064
dc.descriptionDessapt, R., Kervern, D., Bujoli-Doeuff, M., Deniard, P., Evain, M., Jobic, S., Hybrid organic-inorganicmolybdate material design? (2010) Inorg. Chem., 49, pp. 11309-11316
dc.descriptionZhang, Z.H., Gu, Z.M., Liu, X.C., Zhao, F.K., Yue, J.M., Wang, L.F., Niu, Y.Y., Self-assembly crystal structure and fluorescent property of a coordination polymer [(cu4i6)(bpe)]n (2009) Synth. React. Inorg. Met.-Org. Chem., 39, pp. 633-636
dc.descriptionLi, Z.H., Du, S.W., Wu, X.T., Assembly of molecular squares and helical chain polymers of mo(w)/cu/s clusters using thiolato ligands as linkers (2005) Polyhedron, 24, pp. 2988-2993
dc.descriptionYue, J.M., Wang, W.J., Fu, W.Z., Han, X.N., Zhang, Z.H., Wang, L.F., Niu, Y.Y., Syntheses, crystal structures and fluorescent properties of two cationinduced complexes: [(cdi4)(bphx)] and [(ag2i4)(bphx)] (2011) Synth. React. Inorg. Met.-Org. Chem., 41, pp. 1-7
dc.descriptionXu, H.W., Wu, J.G., Chen, Z.N., Self-assembly and crystal structures of two heteronuclear complexes with [ag2(μ-dppm)2(mecn)2](sbf6)2 and [bu4n]2[m(mnt)3] (m = mo, w) as components (2008) Transition Met Chem., 33, pp. 17-21
dc.descriptionLiang, K., Zheng, H.G., Song, Y.L., Li, Y.Z., Xin, X.Q., Novel cluster coordination polymers based on tetranuclear nest-shaped [wos3cu3] heterothiometallitic secondary building units and 4,4'-bipyridine ligand (2007) Cryst. Growth & Des., 7, pp. 373-376
dc.descriptionLang, J.P., Xu, Q.F., Zhang, W.H., Li, H.X., Ren, Z.G., Chen, J.X., Zhang, Y., Mo(w)/cu/s cluster-based supramolecular arrays assembled from preformed clusters [et4n]4[ws4cu4i6] and [(n-bu)4n]2[moos3cu3×3] (x = i, scn) with flexible ditopic ligands (2006) Inorg. Chem., 45, pp. 10487-10496
dc.descriptionHuang, K.X., Song, Y.L., Pan, Z.R., Li, Y.Z., Zheng, H.G., Porous nonlinearoptical material based on a twin-nest-shaped heterothiometallic cluster: {[nh4][w2o 2s6cu6i3(4,4'-bipy)4].5H 2O}N (2007) Inorg. Chem., 46, pp. 6233-6235
dc.descriptionZhang, Q.F., Niu, Y.Y., Leung, W.H., Song, Y.L., Williams, I.D., Xiu, X.Q., Synthesis of a 2d polymeric cluster {[net4][mo2o 2s6cu6i3-(4, 4'-bipy)5] .meoh. H 2O}n with a significant improvement of optical limiting effect (2001) Chem. Commun., pp. 1126-1127
dc.descriptionLiang, K., Zheng, Z.G., Song, Y.L., Lappert, M.F., Li, Y.Z., Xin, Q.Q., Huang, Z.X., Lu, S.F., Self-assembly of interpenetrating coordinationn nets formed from interpenetrating cationic and anionic threedimensional diamondoid cluster coordination polymers (2004) Angew. Chem. Int. Ed., 43, pp. 5776-5779
dc.descriptionDou, J.M., Zhang, D.P., Li, D.C., Wang, D.Q., Two type skeleton heterobimetallic trinuclear cu-mo-s clusters containing closo carborane diphosphine ligand 1,2-bis(diphenylphosphino)-1,2-dicarba- closo-dodecaborane (2006) Inorg. Chem. Commun., 9, pp. 1099-1102
dc.descriptionSadr, M.H., Sardroodi, J.J., Zare, D., Brooks, N., Clegg, R.W., Song, Y.L., Nonlinear optical properties and crystal structure determination of a pentanuclear copper(i) cluster (net4)2[mos4(cubp)4] (bp = H 2b(pyrazolyl)2) (2006) Polyhedron, 25, pp. 3285-3288
dc.descriptionHagrman, P.J., Hagrman, D., Zubieta, J., Organic-inorganic hybrid materials: From "simple" coordination polymers to organodiamine-templated molybdenum oxides (1999) Angew. Chem. Int. Ed., 38, pp. 2638-2684
dc.descriptionHoss, R., Vogtle, F., Template syntheses (1994) Angew. Chem. Int. Ed. Engl, 33, pp. 375-384
dc.languageen
dc.publisher
dc.relationSynthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry
dc.rightsfechado
dc.sourceScopus
dc.titleStructural And Magnetic Studies Of Co 0.6zn 0.4fe 2o 4 Nanoferrite Synthesized By Solution Combustion Method
dc.typeArtículos de revistas


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