87
DAFTAR PUSTAKA
Abdullah, M., 2009, Pengantar nanosains, ITB, Bandung.
Adziimaa, A.F., Doty, D.R. dan Lizda, J.M., 2013, Sintesis Natrium Silikat dari Lumpur Lapindo sebagai Inhibitor Korosi, Jurnal Teknik Pomits, 2, pp. 2.
Aiguo, Y., 2008, Solvothermal Synthesis and Characterization of Size-Controlled Fe3O4 Nanoparticles, Journal of Alloys and Compounds, 458, pp. 487–491.
Akbarzadeh, A., Samiei, M. dan Davaran,S., 2012, Magnetic nanoparticles:
preparation, physical properties, and applications in biomedicine, Nanoscale Research Letters, 7, pp. 144.
Alvarez, G.S., 2004, Synthesis, Characterisation, and Applications of Iron Oxide Nanoparticles, Doctoral Thesis, Universitets service US-AB, Germany.
Anam, C., Sirojudin, dan Firdausi, K.S., 2007, Analisis Gugus Fungsi pada Sampel UJI Bensin dan Spiritus Menggunakan Metode Spektroskopi FTIR,10, pp. 79-85.
Arulmurugan, A., Jeyadevan, B., Vaidyanathan, G. dan Sendhilnathan, S., 2005, Effects of Zinc Substitution on Co-Zn and Mn-Zn Ferrite Nanoparticles Prepared by Co-precipitation, Journal of Magnetism and Magnetic Materials, 288, pp. 470–477.
Askeland, D. R. dan Pule, P. P., 2001, The Science and Engineering of materials, PWS Publishers, USA.
Baykal, A., Güner, S., Demira, A., Esira, S. dan Genç, F., 2014, Effect of Zinc Substitution on Magneto-Optical Properties of Mn1-xZnxFe2O4/SiO2 Nanocomposites, Ceramics International, 40, pp. 13401–13408.
Bozorth, R. M., 1993, Ferromagnetism, Wiley-IEEE Press, New York/Piscataway, NJ.
Callister Jr, W.D., 2007, Fundamentals of Materials Science and Engineering, Fifth Edition, Jhon Wiley & Son Inc, New York.
Castillo, P.M., de la Mata, M., Casula, M.F., Sanchez-Alcazar, J.A. dan Zaderenko, A.P., 2014, PEGylated versus non-PEGylated magnetic nanoparticles as camptothecin delivery system, Beilstein Journal of Nanotechnology, 5, pp. 1312-1319.
Cullity, B.D., 1956, Element of X-Ray Diffraction, second edition, New Jersey, Prentice Hall.
Coey, J.M.D., 2010, Magnetism and Magnetic Materials, Cambridge, University Press, United States of America.
Datta, A., 2007, Characterization of Polyethylene Glycol Hydrogels for Biomedical Application, Thesis, University of Pune, India.
Deng, Y., Wang, C., Hu, J., Yang, W. dan Fu, S., 2005, Investigation of Formation of Silica-Coated Magnetite Nanoparticles via Sol-Gel Process Approach, Colloid and Surfaces, 262, pp. 87.
Deraz, N.M. dan Alarifi, A., 2012, Preparation and Characterization of Nano- Magnetic Mn0.5Zn0.5Fe2O4 System, International Journal of Electrochemical Science, 7, pp. 5828-5836.
Eby, G. N., 2004, Principles of Environment Geochemistry, Brooks/Cole–
Thomson Learning, pp. 07-052.
Foner, S., 1985, Versatile and Sensitive Vibrating-Sample Magnetometer. Rev.
Sci. Instrum, 30, 7, pp. 48-557.
Gandhi, N., 2009, Incorporation of Nano Particles of Cobalt Ferrite into Conjugated Polymer Matrix for EMI Shielding Applications, Thesis, Thapar University, India.
Gubin, S.P., Koksharov, Yu.A., Khomutov, G.B. dan Yurko, G.Yu., 2005, Magnetic nanoparticles: preparation, structure, and properties, Russian Academy of Science and Turpion Ltd, 74, 6, pp. 489-520.
Jing, C., Cao, S.X. dan Zhang, J.C., 2003, Lattice constant dependence of magnetic properties in bcc and fcc FexMn1-xalloys, Physical Review B, 68, pp. 224407.
Joy, P.A. dan Bhame, S.D., 2007, Enchanced Magnetostrictive Properties of CoFe2O4 Synthesized by an Auto Combustion Method, Sensors and Actuators A, 137, pp. 256-261.
Jun, Y.W., Seo, J.W. dan Cheon, 2008, Nanoscaling Law of Magnetic Nanoparticles and Their Applicabilities in Biomedical Science, Acc. Chem.
Res, 41, pp. 179-189.
Ismoyo, A.H., Parikin, dan Bandryana, B., 2009, Analisis Struktur Mikro dan Kristal Paduan ZrNbMoGe, Prosiding Seminar Nasional Sains dan Teknologi Nuklir, 386, pp. 144-155.
Issa, B., Qadri, S., Obaidat, I.M., Bowtell, R.W. dan Haik, Y., 2011, PEG Coating Reduces NMR Relaxivity of Mn0,5Zn0,5Gd0,02Fe1,98O4 Hyperthermia Nanoparticles, Journalof Magnetic Resonance Imaging, 34, pp. 1192- 1198.
Kareem, S.H., Ati, A.A., Shamsuddin, M. dan Lee, S.L., 2015, Nanostructural, Morphological and Magnetic Studies of PEG/Mn(1-x)Zn(x)Fe2O4 Nanoparticles Synthesized by Co-Precipitation, Ceramics International, 41, pp. 11702–11709.
Kim, K.D., 2005, Formation and Characterization of Silica-Coated Magnetic Nanoparticles by Sol Gel, J. Ind. Eng. Chem., 4, pp. 584-589.
Kulkarni, S.A., Sawadh, P.S. dan Palei, P.K., 2014., Syntesis Characterization of Superparamagnetic Fe3O4@silika Nanoparticles. Journal of Korean Chemical Society, 58, pp. 1.
Kumar, P.S.A., Shrotri, J.J., Kulkarni, S.D., Deshpande, C.E. dan Date, S.K., 1996., Low temperature synthesis of Ni0.8Zn0.2Fe2O4 powder and its characterization. Materials Latters, 27, pp. 293-296.
Lida, H., Takayanagi, K., Nakanishi, T. dan Osaka, T., 2007, Synthesis of Fe3O4 Nanoparticles with Various Sizes and Magnetic Properties by Controled Hydrolysis, Journal of Colloid and Interface Science, 314, pp. 274-280.
Liu, Cui-Ping., Ming-Wei, Li., Zhong, Cui., Juan-Ru, Huang., Yi-Ling, Tian., Tong, Lin. dan Wen-Bo, Mi., 2007, Comparative Study of Magnesium Ferrite Nanocrystallites Prepared by Sol-Gel and Copresipitation Methods, J Mater Sci, 42, pp. 6133-6138.
Lu, A.H., Salabas, E. L. dan Schuth, F., 2007, Magnetic Nanoparticles: Synthesis, Protection, Functionalization, and Application, Angenwadte Chemistry of Sciences, 46, pp.1222-1244.
Mandal, K., Chakraverty, S., Mandal, S.P., Agudo, P., Pal, M. dan Chakravorty, D., 2002, Size-Dependent Magnetic Properties of Mn0,5Zn0,5Fe2O4
Nanoparticles in SiO2 Matrix, Journal of Applied Physics, 92, pp. 501.
Mathew, D.S. dan Juang, R.S., 2007, An Overview if the Structure and Magnetism of Spinel Ferrite Nanoparticle and Their Synthesis in Microemulsions, Chemical Engineering Journal, 129, pp. 51–65.
Merdekani, S., 2013, Sintesis Partikel Nanokomposit Fe3O4/SiO2 dengan Metode Kopresipitasi, Prosiding Seminar Nasional Sains dan Teknologi Nuklir,pp.
472-477.
Modak, S., Karan, S., Roy, S.K., Mukherjee, S., Das, D. dan Chakrabarti, P.K., 2008, Preparation and Characterizations of SiO2-Coated Nanoparticles of Mn0,4Zn0,6Fe2O4, Journal of Magnetism and Magnetic Materials, 321, pp.
169-174.
Mutmainnah, 2015, Fabrikasi dan Kajian Sifat Kemagnetan pada Nanopartikel Zinc Ferrite (ZnFe2O4) yang Dienkapsulasi dengan Polyethylene Glycol (PEG-4000) dan Silika, Tesis, Program Pascasarjana, Universitas Gadjah Mada, Yogyakarta.
Ngarajan, R. dan Hatton, T., 2008, Nanoparticles: Synthesis, Stabilization, Passivation, and Functionalization, Washington DC: ADS.
Puri, R.K. dan Babbar, V.K., 1997, Solid State Physics, S. Chand & Company Ltd, New Delhi.
Riyanto, A., 2012, Sintesis Nanopartikel Fe3O4 dan Potensinya sebagai Material Aktif pada Permukaan Sensing Biosensor Berbasis SPR, Tesis, Program Pascasarjana, Universitas Gadjah Mada, Yogyakarta.
Sahoo, S.K., Parveen, S. dan Panda, J.J., 2006, The Present and Future of Nanotechnology in Human Health Care, Nanomedicine, 3, pp. 20-31.
Sharifi, I., Shokrollahi, H. dan Amiri. S., 2012, Ferrite-Based Magnetic Nanofluid Used in Hypertermia Aplications, J. magn Magn Mater, 325, pp. 903- 9015.
Sastrohamidjojo, H., 2001, Spektroskopi, Liberty, Yogyakarta.
Schuth, F., Lu, A. dan Salabas, E.L., 2007, Magnetic Nanoparticles: Synthesis, Protection, Functionalization, and Application, Angewandtechemie, 46, pp.
1222-1244.
Suzuki, K., dan Cadogan, J.M., 1998, Random Magnetocrystalline Anisotropy in Two-Phase Nanocrystalline Systems, Physical Review B, 38, 5, pp. 2730- 2739.
Tahid, 1994, Spektroskopi Inframerah Transformasi Fourier No II Th VIII,Warta Kimia Analitis, Bandung.
Ui, S.W., Lim, S.J., Lee, S.H. dan Choi, S.C., 2009, Control of The Size and Morphology of Nano-Size Silica Particles Using a Sodium Silicate Solution, Journal of Ceramic Processing Research, 10, 4, pp. 553-558.
Umut, E., 2013, Modern Surface Engineering Treatments, Hacettepe University, License Intech.
Veena Gopalan, E., Al-Omari, I.A., Malini, K.A., Joyd, P.A., Sakthi Kumar, D., Yoshida , Y,. Anantharaman, M.R., 2009, Impact of zinc substitution on the structural and magnetic properties of chemically derived nanosized manganese zinc mixed ferrites, Journal of Magnetism and Magnetic Materials, 321, pp. 1092–1099.
Venkatesan, Jayachandra, dan Kim, S., 2010, Chitosan Composite for Bone Tissue Engineering-an Overview.
Venkatesh, D., Siva Ram Prasad, M., Rajesh Babu, B., Ramesh, K.V. dan Trinath, K., 2015,Effect of Sintering Temperature on the Micro Strain and Magnetic Properties of Ni-Zn Nanoferrites, Journal of Magnetics, 20, pp.
229-240.
Waseda, Y., Matsubara, E. dan Shinoda, K., 2011, X-Ray Diffraction Crystallography, Springer, Verlag Berlin Heidelberg.
William, D.B. dan Carter, C.B., 1996, Transmission Electron Microscopy, Plenum Press, New York.
Xu, C., 2009, Modification of Superparamagnetic Nanoparticles for Biomedical Applications, Dissertation, Brown University, United States of America.
Yan, S., Ling, W. dan Zhou, E., 2004, Rapid synthesis of Mn0.65Zn0.35Fe2O4/SiO2 homogeneous nanocomposites by modified sol–gel auto-combustion method, Journal of Crystal Growth, 273, pp. 226-233.
Yang, H., Zhang, S., Chen, S., Zhuang,Z., Xu, J. dan Wang, X., 2004, Magnetite- Containing Spherical Silica Nanoparticles for Biocatalysis and Bioseparations, Anal. Chem, 76, pp.1316-1321.
Zhang, D.E., Zhang, X.J., Zheng, H.G. dan Yang. D.D., 2005, Synthesis and Characterization of NiFe2O4 Magnetic Nanorods via a PEG-Assisted Route, Journal of Magnetism and Magnetic Materials, 292, pp.79-82.
Zhang, F., Su, Z., Wen, F. dan Li, F., 2008, Shynthesis and Characterization of Polystyrene-Graft Magnetic Nanoparticles, Colloid Polym, 286, pp. 837- 841.
Zhao, L., Yang, H., Cui, Y., Zhao, X. dan Feng, S., 2007, Study of Preparation and Magnetic Properties of Silica-Coated Cobalt Ferrite Nanocomposites, springer, 42, pp. 4110-4114.
Zhaohui, Z., 2004, Formation and Properties of Ferrite-Based Nanoparticles and Nanocomposite, Doctoral Thesis, National University of Singapore.
