Efek Konsentrasi NH_4 OH pada Sintesis Nanopartikel Mg〖Fe〗_2 O_4 dengan Metode Kopresipitasi
46
DAFTAR PUSTAKA
Abdullah, M., Virgius, Yudistira, Nirmin dan Khairurrijal. 2008. Sintesis
Nanomaterial, Jurnal Nanosains dan Nanoteknologi Vol. I : 33 – 57.
Abdullah, M., Khairurrijal. 2009. Karakterisasi nanomaterial, Jurnal nanosains dan
Nanoteknologi Vol. 2 : 1 – 9.
Afza, E. 2011. Pembuatan Magnet Pemanen Ba-Hexa Ferrite (BaO.6Fe2O3) dengan
Metode Koorpresipitasi dan Karaterisasinya. [Skripsi]. Medan: Universitas
Sumatera Utara. Program Sarjana S-1. Departemen Fisika, Fakultas
Matematika dan Ilmu Pengetahuan Alam.
Buzea, C., Blandino, I.I.P., dan Robbie, K. 2007. Nanomaterials And Nanoparticles:
Sources and Toxicity. Biointerphases. 2(4): 17-172.
C. R. Vestal, Z. J. Chang. 2004. Int. J. Nanobiotechnology. Vol 1. Nos 1 /2.
Cao, Guozhong. 2004. Nanostructurs dan Nanomaterial. Imperial College Press.
USA.
Collocott, S.J., Dunlop, J. B., Lovatt, H,C and Ramsden, V.S. 2007. Rare-Earth
Permanent Magnets : New Magnet Materials And Applications, CSIRO
Division of Telecommunication and Industrial Physics, Lindfield, NSW,
Australia.
Cullity, B.D. 1972. Introduction to Magnetic Material, Addison – Wesley, Publishing
Company, Inc, USA.
Douglas A. Skoog et al. 1998. Principles of Instrument Analysis 5th edition. Harcourt
Brace College Publisher : USA.
Duda,
Rej. 1990. Enc of Minerals, 2nd Edition. [serial online].
http://www.webmineral.com/data/Magnesioferrite.shtml. [5 April 2017].
Fernandez, B.R. 2011. Sintesis Nanopartikel, Pascasarjana Andalas , Padang
Gubin S. P. 2009. Magnetic Nanoparticles,Wiley-vch Verlag gmbh & co. KGaA,
Weinheim
Hermawan, Agung. Deska Lismawenning, Edi Suharyadi. 2015. Sintesis
Nanopartikel Magnesium Ferrite ( �� 2 4 ) dengan metode Kopresipitasi
dan Karakterisasi Sifat Kemagnetannya. 178.
Hosokawa, M. Kiyoshi, N. Makio, dan Toyokazu. 2007. Nanoparticle Technology
Handbook, Elsevier B.
Universitas Sumatera Utara
47
Hyeon, Taeghwan. 2002. Chemical Synthesis of Magnetic Nanoparticles
Jain, P.K, Lee, K.S., dan El-Sayed, I.H. 2006. Calculated absorption and scattering
properties of gold nanoparticles of different size, shape, and composition:
applications in biological imaging and biomedicine. Journal of Physical
Chemistry B. 110: 7238–7248.
Kumala Sari, Dyah. 2001. Spektrometeri Serapan Atom. Yogyakarta.
M. Salavati-Niasari, F. Davar and T. Mahmoudi. 2009. A Simple route to synthesize
nanocrystalline nickel ferrite (NiFe 2O4 ) in the presence of octanoic acid as a
surfactant, Polyhedron, vol. 28, pp. 1455-1458.
M.W. Kadi and R.M. Mohamed. 2014. Synthesis and optimization of cubic NiFe 2O4
nanoparticles with enhanced saturation magnetization, Ceramics International,
vol. 40, pp. 227-232.
Maensiri, Santi., Montana Sangmanee., and Amporn Wiengmoon. 2008. Magnesium
Ferrite (MgFe2O4) Nanostructures Fabricated by Electrospinning. Nanoscale
Research Letters 4(3) : 221-228.
Mohamed, I. M., A. A. Elbadawi, Yassin., 2013, Synthesis and Structural Properties
of MgFe2O4 ferrite Nanoparticles, Journal of Applied and industrial
Science:20-23.
Mujamilah, Ridwan, Muslich, R.M., Purwanto, S., Febri, M.M.I., Yohannes, A.M,
Santoso, E., dan Mugirahardjo, B. 2000. Vibrating Sample Magnetometer
(VSM) Tipe Oxford VSM 1.2H. Prosiding Seminar Nasional Bahan Magnet
I. Serpong: Puslitbang Iptek Bahan (P3IB) -BAT AN.
Mujiman. 2004. Sintesis Dan Karekterisasi Keramik Alumina (Al2O3) Terhadap
Aditif Titania (TiO2) Heksaferit (Studi kasus di Lembaga Ilmu penelitian
Indonesia, Jakarta). [Skripsi]. Lampung : Universitas Lampung Bandar
Lampung, Program Sarjana S-1
Muklisin I. 2013. Pembuatan dan Karakterisasi Magnet Komposit Ferit dengan
Bahan Pengikat Resin. [Skripsi]. Semarang: Universitas Negeri Semarang.
Program Sarjana S-1. Jurusan Fisika. Fakultas Matematika dan Ilmu
Pengetahuan Alam.
Nanortim.
2010.
Jasa
Analisa
dan
Pengujian
Sample,
http://nano.or.id/index.php?option=com_content&task=blogcategory&id=32&I
te mid=58 . [Diakses 10 April 2017].
Negara, I M. Sutha, Karna Wijaya dan Eko Sugiharto. 2008. Preparasi dan
Karakterisasi Komposit Kromiun Oksida-Montmorilonit. Jurnal Kimia 2 (2),
Juli: 93-99
Universitas Sumatera Utara
48
Nurmawati, M. 2007. Analisis Derajat Kristalinitas, Ukuran Kristal, dan Bentuk
Partikel Mineral Tulang Manusia Berdasarkan Variasi Umur dan Jenis Tulang.
Skripsi. Institut Pertanian Bogor : IPB.
Oscik, J. 1982. Adsorption. John Willey and Sons. New York
Palache, C., Berman, H., Frondel, C. 1944. The System of Mineralogy of James
Dwight Dana and Edward Salisbury Dana Yale University 1837-1892, Volume
I: Elements, Sulfides, Sulfosalts, Oxides. John Wiley and Sons, Inc., New
York. 7th edition, revised and enlarged: 698-707. [serial online]
https://www.mindat.org/min-2538.html. [06 April 2017]
Paul A.Tipler. 2001. Fisika untuk Sains dan Teknik, Jilid 1, Penerbit Erlangga.
Pokropivny,V., Lohmus,R., Hussainova, I., Pokropivny, A., Vlassov, S. 2007.
Introduction in Nanomaterials and Nanotechnology. Tartu University Press,
Ukraina, 225 p.
Putra, Hendra, Iman Satyarno, dan Agus Budhie Wijatna. Penggunaan Pasir Besi dari
Kulon Progo dengan Berat Jenis 4,311 untuk Mortar Perisai Radiasi Sinar
Gamma. Forum Teknik Sipil No. XVIII/3, 2008.
R. Ghatreh-Samani, A. Mostafaei, Chemical co-precipitation synthesis of spinel
manganese ferrite nanoparticles (MnFe2O4): Morphological characterizations
and magnetic properties, Journal of Magnetism and Magnetic Materials.
Rahmawati, A. & Santoso, S. J. (2012). Studi Adsorpsi Logam Pb(II) Pada Asam
Humat Dalam Medium Air. Alchemy, 2(1): 46- 57.
Q. Chen, A.J. Rondinone, B.C. Chakoumakos, J.Z. Zhang. 1999. Synthesis of
superparamagnetic MgFe2O4 nanoparticles by coprecipitation, Journal of
Magnetism and Magnetic Materials 194, 1–7.
S.A. Oliver, R.J. Willey, H.H. Hamdeh, G. Oliveri, G. Busca, Scr. Mater. 1996. 33
(1995)1695. 6. G. Busca, E. Finocchio, V. Lorenzelli, M. Trombetta, S.A.
Rossini, J. Chem. Soc. Faraday Trans. 92, 4687.
S. Bid, P. Sahu, S.K. Pradhan. 2007. Microstructure characterization of
mechanosynthesized nanocrystalline NiFe2O4 by Rietveld's analysis, Physica
E 175: 184–188.
S. Da Dalt, A.S. Takimi, T.M. Volkmer, V.C. Sousa, C.P. Bergmann. 2011.
Magnetic and Mössbauer behavior of the nanostructured MgFe2O4 spinel
obtained at low temperature, Powder Technology 210: 103–108.
Sukardjo. 1985. Kimia Fisika. Bina Aksara. Yogyakarta.
Universitas Sumatera Utara
49
Sunaryo dan Wira Widyawidura. Metode Pembelajaran Bahan Magnet dan
Identifikasi Kandungan Senyawa Pasir Alam Menggunakan Prinsip Dasar
Fisika. Jurnal Cakrawala Pendidikan FMIPA Universitas Negeri Jakarta No. 1
Th. XXIX, 2010.
Stern, S.T., dan McNeil, S.E. 2008. Nanotechnology Safety Concerns Revisited.
Toxicological Sciences. 101(1): 4-21.
Tabitaria, 2015. Pengaruh Temperatur Sintering Terhadap Sifat Fisis, Magnet Dan
Mikrostruktur Dari BaFe12O19 Dengan Aditif Al2O3. [Skripsi]. Medan:
Universitas Sumatera Utara. Program Sarjana S-1. Jurusan FMIPA Fisika.
Thant, Srimala, P. Kaung, dkk., 2010, Low Temperature Synthesis of MgFe 2O4 Soft
Ferrite Nanocrystallites, Journal of the Australian Ceramic Society, Volume
46.
V.A. Godbole, et. Al., Circular in situ neutron powder diffraction cell for study of
reaction mechanism in electrode materials for Li-ion batteries, RSC Adv. 3 (3)
(2013) 757-763.
V.L. Mathe, R.B. Kamble. 2008. Anomalies in electrical and dielectric properties of
nanocrystalline Ni–Co spinel ferrite, Materials Research Bulletin 43: 2160–
2165.
Vlack, Lawrence H. Van. 1984. Elements of Materials Science and Engineering. 5th
Edition. Erlangga. Jakarta. 553-554.
Wyckoff R.W.G., Crystal Structure 3 John Wiley & Sons.
Y.S. Kim, Y.H. Kim, J. 2003. Magn Magn Mate, 267, 105.
Y. Qu, H. Yang, N. Yang, Y. Fan, H. Zhu, and G. Zou, The effect of reaction
temperature on the particle size, structure and magnetic properties of
coprecipitated CoFe2O4 nanoparticles,” Materials Letters, vol. 60, no. 29-30,
2006, pp. 3548–3552.
Yulianto, A, S. Bijaksana, dan W. Loeksmanto. Karakteristik Magnetik dari Pasir
Besi Cilacap. Jurnal Fisika Himpunan Fisika Indonesia Vol. A5 (0527), 2002.
Universitas Sumatera Utara
DAFTAR PUSTAKA
Abdullah, M., Virgius, Yudistira, Nirmin dan Khairurrijal. 2008. Sintesis
Nanomaterial, Jurnal Nanosains dan Nanoteknologi Vol. I : 33 – 57.
Abdullah, M., Khairurrijal. 2009. Karakterisasi nanomaterial, Jurnal nanosains dan
Nanoteknologi Vol. 2 : 1 – 9.
Afza, E. 2011. Pembuatan Magnet Pemanen Ba-Hexa Ferrite (BaO.6Fe2O3) dengan
Metode Koorpresipitasi dan Karaterisasinya. [Skripsi]. Medan: Universitas
Sumatera Utara. Program Sarjana S-1. Departemen Fisika, Fakultas
Matematika dan Ilmu Pengetahuan Alam.
Buzea, C., Blandino, I.I.P., dan Robbie, K. 2007. Nanomaterials And Nanoparticles:
Sources and Toxicity. Biointerphases. 2(4): 17-172.
C. R. Vestal, Z. J. Chang. 2004. Int. J. Nanobiotechnology. Vol 1. Nos 1 /2.
Cao, Guozhong. 2004. Nanostructurs dan Nanomaterial. Imperial College Press.
USA.
Collocott, S.J., Dunlop, J. B., Lovatt, H,C and Ramsden, V.S. 2007. Rare-Earth
Permanent Magnets : New Magnet Materials And Applications, CSIRO
Division of Telecommunication and Industrial Physics, Lindfield, NSW,
Australia.
Cullity, B.D. 1972. Introduction to Magnetic Material, Addison – Wesley, Publishing
Company, Inc, USA.
Douglas A. Skoog et al. 1998. Principles of Instrument Analysis 5th edition. Harcourt
Brace College Publisher : USA.
Duda,
Rej. 1990. Enc of Minerals, 2nd Edition. [serial online].
http://www.webmineral.com/data/Magnesioferrite.shtml. [5 April 2017].
Fernandez, B.R. 2011. Sintesis Nanopartikel, Pascasarjana Andalas , Padang
Gubin S. P. 2009. Magnetic Nanoparticles,Wiley-vch Verlag gmbh & co. KGaA,
Weinheim
Hermawan, Agung. Deska Lismawenning, Edi Suharyadi. 2015. Sintesis
Nanopartikel Magnesium Ferrite ( �� 2 4 ) dengan metode Kopresipitasi
dan Karakterisasi Sifat Kemagnetannya. 178.
Hosokawa, M. Kiyoshi, N. Makio, dan Toyokazu. 2007. Nanoparticle Technology
Handbook, Elsevier B.
Universitas Sumatera Utara
47
Hyeon, Taeghwan. 2002. Chemical Synthesis of Magnetic Nanoparticles
Jain, P.K, Lee, K.S., dan El-Sayed, I.H. 2006. Calculated absorption and scattering
properties of gold nanoparticles of different size, shape, and composition:
applications in biological imaging and biomedicine. Journal of Physical
Chemistry B. 110: 7238–7248.
Kumala Sari, Dyah. 2001. Spektrometeri Serapan Atom. Yogyakarta.
M. Salavati-Niasari, F. Davar and T. Mahmoudi. 2009. A Simple route to synthesize
nanocrystalline nickel ferrite (NiFe 2O4 ) in the presence of octanoic acid as a
surfactant, Polyhedron, vol. 28, pp. 1455-1458.
M.W. Kadi and R.M. Mohamed. 2014. Synthesis and optimization of cubic NiFe 2O4
nanoparticles with enhanced saturation magnetization, Ceramics International,
vol. 40, pp. 227-232.
Maensiri, Santi., Montana Sangmanee., and Amporn Wiengmoon. 2008. Magnesium
Ferrite (MgFe2O4) Nanostructures Fabricated by Electrospinning. Nanoscale
Research Letters 4(3) : 221-228.
Mohamed, I. M., A. A. Elbadawi, Yassin., 2013, Synthesis and Structural Properties
of MgFe2O4 ferrite Nanoparticles, Journal of Applied and industrial
Science:20-23.
Mujamilah, Ridwan, Muslich, R.M., Purwanto, S., Febri, M.M.I., Yohannes, A.M,
Santoso, E., dan Mugirahardjo, B. 2000. Vibrating Sample Magnetometer
(VSM) Tipe Oxford VSM 1.2H. Prosiding Seminar Nasional Bahan Magnet
I. Serpong: Puslitbang Iptek Bahan (P3IB) -BAT AN.
Mujiman. 2004. Sintesis Dan Karekterisasi Keramik Alumina (Al2O3) Terhadap
Aditif Titania (TiO2) Heksaferit (Studi kasus di Lembaga Ilmu penelitian
Indonesia, Jakarta). [Skripsi]. Lampung : Universitas Lampung Bandar
Lampung, Program Sarjana S-1
Muklisin I. 2013. Pembuatan dan Karakterisasi Magnet Komposit Ferit dengan
Bahan Pengikat Resin. [Skripsi]. Semarang: Universitas Negeri Semarang.
Program Sarjana S-1. Jurusan Fisika. Fakultas Matematika dan Ilmu
Pengetahuan Alam.
Nanortim.
2010.
Jasa
Analisa
dan
Pengujian
Sample,
http://nano.or.id/index.php?option=com_content&task=blogcategory&id=32&I
te mid=58 . [Diakses 10 April 2017].
Negara, I M. Sutha, Karna Wijaya dan Eko Sugiharto. 2008. Preparasi dan
Karakterisasi Komposit Kromiun Oksida-Montmorilonit. Jurnal Kimia 2 (2),
Juli: 93-99
Universitas Sumatera Utara
48
Nurmawati, M. 2007. Analisis Derajat Kristalinitas, Ukuran Kristal, dan Bentuk
Partikel Mineral Tulang Manusia Berdasarkan Variasi Umur dan Jenis Tulang.
Skripsi. Institut Pertanian Bogor : IPB.
Oscik, J. 1982. Adsorption. John Willey and Sons. New York
Palache, C., Berman, H., Frondel, C. 1944. The System of Mineralogy of James
Dwight Dana and Edward Salisbury Dana Yale University 1837-1892, Volume
I: Elements, Sulfides, Sulfosalts, Oxides. John Wiley and Sons, Inc., New
York. 7th edition, revised and enlarged: 698-707. [serial online]
https://www.mindat.org/min-2538.html. [06 April 2017]
Paul A.Tipler. 2001. Fisika untuk Sains dan Teknik, Jilid 1, Penerbit Erlangga.
Pokropivny,V., Lohmus,R., Hussainova, I., Pokropivny, A., Vlassov, S. 2007.
Introduction in Nanomaterials and Nanotechnology. Tartu University Press,
Ukraina, 225 p.
Putra, Hendra, Iman Satyarno, dan Agus Budhie Wijatna. Penggunaan Pasir Besi dari
Kulon Progo dengan Berat Jenis 4,311 untuk Mortar Perisai Radiasi Sinar
Gamma. Forum Teknik Sipil No. XVIII/3, 2008.
R. Ghatreh-Samani, A. Mostafaei, Chemical co-precipitation synthesis of spinel
manganese ferrite nanoparticles (MnFe2O4): Morphological characterizations
and magnetic properties, Journal of Magnetism and Magnetic Materials.
Rahmawati, A. & Santoso, S. J. (2012). Studi Adsorpsi Logam Pb(II) Pada Asam
Humat Dalam Medium Air. Alchemy, 2(1): 46- 57.
Q. Chen, A.J. Rondinone, B.C. Chakoumakos, J.Z. Zhang. 1999. Synthesis of
superparamagnetic MgFe2O4 nanoparticles by coprecipitation, Journal of
Magnetism and Magnetic Materials 194, 1–7.
S.A. Oliver, R.J. Willey, H.H. Hamdeh, G. Oliveri, G. Busca, Scr. Mater. 1996. 33
(1995)1695. 6. G. Busca, E. Finocchio, V. Lorenzelli, M. Trombetta, S.A.
Rossini, J. Chem. Soc. Faraday Trans. 92, 4687.
S. Bid, P. Sahu, S.K. Pradhan. 2007. Microstructure characterization of
mechanosynthesized nanocrystalline NiFe2O4 by Rietveld's analysis, Physica
E 175: 184–188.
S. Da Dalt, A.S. Takimi, T.M. Volkmer, V.C. Sousa, C.P. Bergmann. 2011.
Magnetic and Mössbauer behavior of the nanostructured MgFe2O4 spinel
obtained at low temperature, Powder Technology 210: 103–108.
Sukardjo. 1985. Kimia Fisika. Bina Aksara. Yogyakarta.
Universitas Sumatera Utara
49
Sunaryo dan Wira Widyawidura. Metode Pembelajaran Bahan Magnet dan
Identifikasi Kandungan Senyawa Pasir Alam Menggunakan Prinsip Dasar
Fisika. Jurnal Cakrawala Pendidikan FMIPA Universitas Negeri Jakarta No. 1
Th. XXIX, 2010.
Stern, S.T., dan McNeil, S.E. 2008. Nanotechnology Safety Concerns Revisited.
Toxicological Sciences. 101(1): 4-21.
Tabitaria, 2015. Pengaruh Temperatur Sintering Terhadap Sifat Fisis, Magnet Dan
Mikrostruktur Dari BaFe12O19 Dengan Aditif Al2O3. [Skripsi]. Medan:
Universitas Sumatera Utara. Program Sarjana S-1. Jurusan FMIPA Fisika.
Thant, Srimala, P. Kaung, dkk., 2010, Low Temperature Synthesis of MgFe 2O4 Soft
Ferrite Nanocrystallites, Journal of the Australian Ceramic Society, Volume
46.
V.A. Godbole, et. Al., Circular in situ neutron powder diffraction cell for study of
reaction mechanism in electrode materials for Li-ion batteries, RSC Adv. 3 (3)
(2013) 757-763.
V.L. Mathe, R.B. Kamble. 2008. Anomalies in electrical and dielectric properties of
nanocrystalline Ni–Co spinel ferrite, Materials Research Bulletin 43: 2160–
2165.
Vlack, Lawrence H. Van. 1984. Elements of Materials Science and Engineering. 5th
Edition. Erlangga. Jakarta. 553-554.
Wyckoff R.W.G., Crystal Structure 3 John Wiley & Sons.
Y.S. Kim, Y.H. Kim, J. 2003. Magn Magn Mate, 267, 105.
Y. Qu, H. Yang, N. Yang, Y. Fan, H. Zhu, and G. Zou, The effect of reaction
temperature on the particle size, structure and magnetic properties of
coprecipitated CoFe2O4 nanoparticles,” Materials Letters, vol. 60, no. 29-30,
2006, pp. 3548–3552.
Yulianto, A, S. Bijaksana, dan W. Loeksmanto. Karakteristik Magnetik dari Pasir
Besi Cilacap. Jurnal Fisika Himpunan Fisika Indonesia Vol. A5 (0527), 2002.
Universitas Sumatera Utara