Pengaruh Variasi Konsentrasi Larutan Pengendap Terhadap Sifat Optik Nanopartikel Cu2o Yang Disintesis Dengan Metode Kopresipitasi
81
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.
Aiguo, Yan. 2008. Solvthermal Synthesis and Characterisation of sizecontrolled Fe3O4 Nanoparticles, Journal Alloys and Compund 458 :
487- 491.
Antony J, Qiang Y, Faheem M, Meyer D, McCready DE, Engelhard MH. 2007.
Ferromagneticsemiconductor nanoclusters: co-doped Cu2O. Appl Phys
Lett 90:3–013106.
Astuti, Z.H. 2007. Kebergantungan Ukuran Nanopartikel terhadap Warna yang
Dipancarkan pada Proses Deeksitasi. Bandung : ITB.
Awinda., Dahlan, Dahyunir., Emriadi. 2011. Sintesis Lapisan Cu2O (Cuprous
Oxide) di atas Substrat ITO (Indium Tin Oxide dengan Metode
Elektrodeposisi, FMIPA, Unand, Padang.
Bai, Yakui., Yang, Tengfei., Gu, Qing., Cheng, Guoan., Zheng., Ruiting. 2012.
Shape Control Mechanism of Cuprous Oxide Nanoparticles in Aqueos
Colloidal Solutions, Journal Powder Technology 227: 35-42
Biccari, Francesco. 2009. Defects and Doping in Cu2O. Sapienza, University of
Rome.
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
Cao, Yan., Wang Yue J., Zhou Kang G., Bi Z. 2009. Morphology Control Of
Ultrafine Cuprous Oxide Powder And Its Growth Mechanism. Elsevier
Journal, Trans. Nonferrous Met. Soc. China 20(2010) s216 – s220.
Cristina Buzea, Ivan. I. Pacheco Blandino, Kevin Robbie. Nanomaterials and
Nanoparticles. Biointerphases vol. 2, issue 4 (2007) pages MR17 - MR172
Fernandez, B.R. 2011. Sintesis Nanopartikel, Pascasarjana Andalas , Padang.
Gareso, P.L. 2012. Fisika Semikonduktor., Universitas Hasanuddin, Makassar.
82
Guedes M, Ferreira JMF, Ferro AC. 2009. Dispersion of Cu2O particles in
aqueous suspensions containing 4,5-dihydroxy-1,3-benzenedisulfonic acid
disodium salt. Ceram Int 35 : 1939 – 1945.
Guimaraes, P.A. 2009. Prinsiples of Nanomagnetism, German: Springer.H. Yan, J.C. Zhang, H.X. You, Z.W. Song, B.W. Yu, Y. Shen,. 2009. Influences
of different synthesis conditions on properties of Fe3O4 nanoparticles,
Materials Chemistry and Physics 113 : 46-52.
He Ping, Shen X., Gao H. 2004. Size-controlled preparation of Cu2O
octahedron nanocrystals and studies on their optical absorption.
Journal of Colloid and Interface Science, 2005, 284 : 510–515
Hosokawa, M. Kiyoshi, N. Makio, dan Toyokazu. 2007. Nanoparticle
Technology Handbook, Elsevier B.
Kaur, M., Muthe, K.P., Despande, S.K., Choudhury, S., Singh, J.B., Erma, N. V.,
Gupta, S.K., and Yakhmi, J.V. 2006.“ Growth and branching of CuO
nanowires by thermal oxidation of copper”, J. Cryst. Growth, Vol. 289 :
680-675.
Keithley. 2005. Measuring the Resistivity and Determining the Conductivity Type
of Semiconductor Materials Using a Four-Point Collinear Probe. Ohio :
Keithley Instruments, Inc. Note number 2615
Korzhavyi, PA, Johansson B. 2011. Literature review on the properties of
Cuprous Oxide Cu2O and the process of copper oxidation. Department of
Materials Science and Enggineering, Royal Institute of Technology.
Kuo CH, Chen CH, Huang MH. 2007. Seed-mediated synthesis of monodispersed
Cu2O nanocubes with five different size ranges from 40 to 420 nm. Journal
Advanced Functional Materials, 17:3773–3780.
Kundu S, Jana S, Biswas PK. 2005. Quantum confinement effect of in situ
generated Cu2O in a nanostructured zirconia matrix. Mater Sci Pol
23(1):7–14
Lestari, V., 2009. Strukutr dan Karakterisasi Optik Lapisan Semikonduktor
Cu2O (Cuprous Oxide) Hasil Deposisi Elektrokimia., Skripsi IPB Bogor.
Lin X.F., Zhou R., Sheng X., Zhang J., 2010. Cu2O nanoparticles : Radiation
synthesis, and photocatalitic activity. Nuclear Science and Techniques 21
: 146-151.
83
M. Leoni and P. Scardi, ”Nanocrystalline domain size distributions from powder
diffraction data”, J. Appl. Crystallogr., 37(2004) 629-634.
Maddu, Akhiruddin., Timuda, G.E. 2010. Pengaruh Ketebalan terhadap Sifat
Optik Lapisan Semikonduktor Cu2O dengan Metode Chemical Bath
Deposition, Jurnal Ilmu Pengetahuan dan Teknlogi Telaah
Mahajan MB, Pavan MS, Joy PA. 2009. Ferromagnetic properties of glucose
coated Cu2O nanoparticles. Solid State Commun 149:2199–2201.
Montja, D.A. 2012. Sintesis dan Karakterisasi Struktur dan Optis Nanopartikel
ZnO Didop Mg Menggunakan Metode Kopresipitasi., Skripsi, UI,
Medan.
M. M. Grady, A. Morlok, C. D. Fernandes, and D. Johnson. 2006. Spectroscopy
of Stardust from 200nm to 16μm (with a Gap in the Middle). Planetary
and Space Sciences Research Institute, The Open University, Walton
Hall, MK7 6AA, UK.
Pokropivny,V., Lohmus,R., Hussainova, I., Pokropivny, A., Vlassov, S. 2007.
Introduction in Nanomaterials and Nanotechnology. Tartu University
Press, Ukraina, 225 p.
Saputra, D. 2006. Pengaruh Suhu Pemanasan Terhadap Sifat Optik Lapisan Tipis
MnS Yang Ditumbuhkan dengan Metode Chemical Bath Deposition,
FMIPA , IPB Bogor
Sekhar, H., Rao, D.N. 2012. Preparation, Characterization and Nonlinier
Absorption Studies of Cuprous Oxide Nanoclusters, Micro-cubes and
Micro-particles. Journal Nanoparticles Research 14: 976
nd
Sze, S.M. 2007. Physics of Semiconductor Devices 2 edn. John Wiley and Sons.
United States of America.
Takayanagi . 2007. Journal of Colloid and Interface Science, vol. 314 : Page
274 – 280
Teja, A.S. and P.Y. Koh, 2009. Synthesis, properties and applications of magnetic
iron oxide nanoparticles. Prog. Cryst. Growth Ch., 5
Thermo Nicolet Corporation. 2001. Introduction to Fourier Transform Infrared
Spectrometry. Madison : USA.
84
Timuda, G.E. 2006. Karakterisasi Optik Lapisan Semikonduktor Cu2O Yang
Dibuat Dengan Metode Deposisi Kimia, FMIPA, IPB Bogor
Wang Yue-jun, Zhou kang G. 2012. Effect Of OH− on Morphology Of Cu2O
Particles Prepared Through Reduction Of Cu (II) By Glucose. Springer
Journal, Central South University Press and Springer Verlag Berlin
Heidelberg.
Wang Z, Wang H, Wang L, Pan L, (2009), Controlled synthesis of Cu2O cubic
and octahedral nano- and microcrystals. Cryst Res Technol 44(6) : 624 –
628
Wikipedia. 2014. Tembaga, http://id.wikipedia.org/wiki/Tembaga (diakses pada
03 desember 2014)
Wikipedia. 2014. Copper (I) Oxide, http://en.wikipedia.org/wiki/Copper(I)_oxide
(diakses pada 03 desember 2014)
Xiaoxia Z, Jimei S, Jian J, Xuefeng M,. 2010. Preparation and photocatalytic
activity of cuprous oxides. Elsevier Journal, Solid State Sciences 12
(2010) 1215e1219
Xie SY, Ma ZJ, Wang CF, Lin SC, Jiang ZY, Huang RB, Zheng LS, (2004), State
displacement reactions and to obtain Cu NPs from Cu (II) precursor
physical and chemical. J Solid. State. Chem. 177 (10) : 3743–7
Yamin S, Kurniawan H. 2009, SPSS Complete : Teknik Analisis Statistik
Terlengkap dengan Software SPSS, Buku Seri I, Jakarta : Salemba Infotek
Yanyan Xu , Xiuling Jiao,Dairong Chen , (2008), PEG-Assisted Preparation of
Single-Crystalline Cu2O Hollow Nanocubes. The Journal of Physical
Chemistry, 112 (43), pp 16769–16773
Yuhas BD, Yang P. 2009. Nanowire-based all-oxide solar cells. J Am Chem Soc
131(10):3756–3761.
Z. Afiati, S. Pratapa, and L. Atmaja. 2009. ”X-ray Diffraction Analysis of Brucite
and Periclase Nanopowders Synthesised using Co-precipitation Method”,
presented in International Conference in Materials and Metallurgical
Technology 2009 (ICOMMET 2009), ITS Surabaya.
Zhou W., Apkarian, R.P., Wang, ZL., Joy, D., 2006. Fundamentals of Scanning
Electron Microscopy. Ufam. Edu Jurnal.
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.
Aiguo, Yan. 2008. Solvthermal Synthesis and Characterisation of sizecontrolled Fe3O4 Nanoparticles, Journal Alloys and Compund 458 :
487- 491.
Antony J, Qiang Y, Faheem M, Meyer D, McCready DE, Engelhard MH. 2007.
Ferromagneticsemiconductor nanoclusters: co-doped Cu2O. Appl Phys
Lett 90:3–013106.
Astuti, Z.H. 2007. Kebergantungan Ukuran Nanopartikel terhadap Warna yang
Dipancarkan pada Proses Deeksitasi. Bandung : ITB.
Awinda., Dahlan, Dahyunir., Emriadi. 2011. Sintesis Lapisan Cu2O (Cuprous
Oxide) di atas Substrat ITO (Indium Tin Oxide dengan Metode
Elektrodeposisi, FMIPA, Unand, Padang.
Bai, Yakui., Yang, Tengfei., Gu, Qing., Cheng, Guoan., Zheng., Ruiting. 2012.
Shape Control Mechanism of Cuprous Oxide Nanoparticles in Aqueos
Colloidal Solutions, Journal Powder Technology 227: 35-42
Biccari, Francesco. 2009. Defects and Doping in Cu2O. Sapienza, University of
Rome.
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
Cao, Yan., Wang Yue J., Zhou Kang G., Bi Z. 2009. Morphology Control Of
Ultrafine Cuprous Oxide Powder And Its Growth Mechanism. Elsevier
Journal, Trans. Nonferrous Met. Soc. China 20(2010) s216 – s220.
Cristina Buzea, Ivan. I. Pacheco Blandino, Kevin Robbie. Nanomaterials and
Nanoparticles. Biointerphases vol. 2, issue 4 (2007) pages MR17 - MR172
Fernandez, B.R. 2011. Sintesis Nanopartikel, Pascasarjana Andalas , Padang.
Gareso, P.L. 2012. Fisika Semikonduktor., Universitas Hasanuddin, Makassar.
82
Guedes M, Ferreira JMF, Ferro AC. 2009. Dispersion of Cu2O particles in
aqueous suspensions containing 4,5-dihydroxy-1,3-benzenedisulfonic acid
disodium salt. Ceram Int 35 : 1939 – 1945.
Guimaraes, P.A. 2009. Prinsiples of Nanomagnetism, German: Springer.H. Yan, J.C. Zhang, H.X. You, Z.W. Song, B.W. Yu, Y. Shen,. 2009. Influences
of different synthesis conditions on properties of Fe3O4 nanoparticles,
Materials Chemistry and Physics 113 : 46-52.
He Ping, Shen X., Gao H. 2004. Size-controlled preparation of Cu2O
octahedron nanocrystals and studies on their optical absorption.
Journal of Colloid and Interface Science, 2005, 284 : 510–515
Hosokawa, M. Kiyoshi, N. Makio, dan Toyokazu. 2007. Nanoparticle
Technology Handbook, Elsevier B.
Kaur, M., Muthe, K.P., Despande, S.K., Choudhury, S., Singh, J.B., Erma, N. V.,
Gupta, S.K., and Yakhmi, J.V. 2006.“ Growth and branching of CuO
nanowires by thermal oxidation of copper”, J. Cryst. Growth, Vol. 289 :
680-675.
Keithley. 2005. Measuring the Resistivity and Determining the Conductivity Type
of Semiconductor Materials Using a Four-Point Collinear Probe. Ohio :
Keithley Instruments, Inc. Note number 2615
Korzhavyi, PA, Johansson B. 2011. Literature review on the properties of
Cuprous Oxide Cu2O and the process of copper oxidation. Department of
Materials Science and Enggineering, Royal Institute of Technology.
Kuo CH, Chen CH, Huang MH. 2007. Seed-mediated synthesis of monodispersed
Cu2O nanocubes with five different size ranges from 40 to 420 nm. Journal
Advanced Functional Materials, 17:3773–3780.
Kundu S, Jana S, Biswas PK. 2005. Quantum confinement effect of in situ
generated Cu2O in a nanostructured zirconia matrix. Mater Sci Pol
23(1):7–14
Lestari, V., 2009. Strukutr dan Karakterisasi Optik Lapisan Semikonduktor
Cu2O (Cuprous Oxide) Hasil Deposisi Elektrokimia., Skripsi IPB Bogor.
Lin X.F., Zhou R., Sheng X., Zhang J., 2010. Cu2O nanoparticles : Radiation
synthesis, and photocatalitic activity. Nuclear Science and Techniques 21
: 146-151.
83
M. Leoni and P. Scardi, ”Nanocrystalline domain size distributions from powder
diffraction data”, J. Appl. Crystallogr., 37(2004) 629-634.
Maddu, Akhiruddin., Timuda, G.E. 2010. Pengaruh Ketebalan terhadap Sifat
Optik Lapisan Semikonduktor Cu2O dengan Metode Chemical Bath
Deposition, Jurnal Ilmu Pengetahuan dan Teknlogi Telaah
Mahajan MB, Pavan MS, Joy PA. 2009. Ferromagnetic properties of glucose
coated Cu2O nanoparticles. Solid State Commun 149:2199–2201.
Montja, D.A. 2012. Sintesis dan Karakterisasi Struktur dan Optis Nanopartikel
ZnO Didop Mg Menggunakan Metode Kopresipitasi., Skripsi, UI,
Medan.
M. M. Grady, A. Morlok, C. D. Fernandes, and D. Johnson. 2006. Spectroscopy
of Stardust from 200nm to 16μm (with a Gap in the Middle). Planetary
and Space Sciences Research Institute, The Open University, Walton
Hall, MK7 6AA, UK.
Pokropivny,V., Lohmus,R., Hussainova, I., Pokropivny, A., Vlassov, S. 2007.
Introduction in Nanomaterials and Nanotechnology. Tartu University
Press, Ukraina, 225 p.
Saputra, D. 2006. Pengaruh Suhu Pemanasan Terhadap Sifat Optik Lapisan Tipis
MnS Yang Ditumbuhkan dengan Metode Chemical Bath Deposition,
FMIPA , IPB Bogor
Sekhar, H., Rao, D.N. 2012. Preparation, Characterization and Nonlinier
Absorption Studies of Cuprous Oxide Nanoclusters, Micro-cubes and
Micro-particles. Journal Nanoparticles Research 14: 976
nd
Sze, S.M. 2007. Physics of Semiconductor Devices 2 edn. John Wiley and Sons.
United States of America.
Takayanagi . 2007. Journal of Colloid and Interface Science, vol. 314 : Page
274 – 280
Teja, A.S. and P.Y. Koh, 2009. Synthesis, properties and applications of magnetic
iron oxide nanoparticles. Prog. Cryst. Growth Ch., 5
Thermo Nicolet Corporation. 2001. Introduction to Fourier Transform Infrared
Spectrometry. Madison : USA.
84
Timuda, G.E. 2006. Karakterisasi Optik Lapisan Semikonduktor Cu2O Yang
Dibuat Dengan Metode Deposisi Kimia, FMIPA, IPB Bogor
Wang Yue-jun, Zhou kang G. 2012. Effect Of OH− on Morphology Of Cu2O
Particles Prepared Through Reduction Of Cu (II) By Glucose. Springer
Journal, Central South University Press and Springer Verlag Berlin
Heidelberg.
Wang Z, Wang H, Wang L, Pan L, (2009), Controlled synthesis of Cu2O cubic
and octahedral nano- and microcrystals. Cryst Res Technol 44(6) : 624 –
628
Wikipedia. 2014. Tembaga, http://id.wikipedia.org/wiki/Tembaga (diakses pada
03 desember 2014)
Wikipedia. 2014. Copper (I) Oxide, http://en.wikipedia.org/wiki/Copper(I)_oxide
(diakses pada 03 desember 2014)
Xiaoxia Z, Jimei S, Jian J, Xuefeng M,. 2010. Preparation and photocatalytic
activity of cuprous oxides. Elsevier Journal, Solid State Sciences 12
(2010) 1215e1219
Xie SY, Ma ZJ, Wang CF, Lin SC, Jiang ZY, Huang RB, Zheng LS, (2004), State
displacement reactions and to obtain Cu NPs from Cu (II) precursor
physical and chemical. J Solid. State. Chem. 177 (10) : 3743–7
Yamin S, Kurniawan H. 2009, SPSS Complete : Teknik Analisis Statistik
Terlengkap dengan Software SPSS, Buku Seri I, Jakarta : Salemba Infotek
Yanyan Xu , Xiuling Jiao,Dairong Chen , (2008), PEG-Assisted Preparation of
Single-Crystalline Cu2O Hollow Nanocubes. The Journal of Physical
Chemistry, 112 (43), pp 16769–16773
Yuhas BD, Yang P. 2009. Nanowire-based all-oxide solar cells. J Am Chem Soc
131(10):3756–3761.
Z. Afiati, S. Pratapa, and L. Atmaja. 2009. ”X-ray Diffraction Analysis of Brucite
and Periclase Nanopowders Synthesised using Co-precipitation Method”,
presented in International Conference in Materials and Metallurgical
Technology 2009 (ICOMMET 2009), ITS Surabaya.
Zhou W., Apkarian, R.P., Wang, ZL., Joy, D., 2006. Fundamentals of Scanning
Electron Microscopy. Ufam. Edu Jurnal.