53

DAFTAR PUSTAKA

Annisanfushie’sweblog.htm. 2012. Kimia Tembaga. Diakses pada tanggal 11

Februari 2012. Pada pukul 10.34 WIB.

Alvina.blog.uns.ac.id/page/38.html. 2008. Unsur Golongan IV B. Diakses pada

tanggal 11 Februari 2012. Pada pukul 10.23 WIB.

Atwirman, S. 2000. Penelitian Potensi Oksida Logam Fe2O3 dan CuO Untuk

Peningkatan Kecepatan Pembakaran Propelan Komposit. Jurnal

Penelitian di Bidang Propelan. Jakarta. LAPAN. Page. 45-51.

Beiser, A. 1982. Konsep Fisika Modern Edisi 3. Jakarta. Erlangga. Hal. 39-71.

Brinker, C. J. and Scherer, G.W. 1990. Sol Gel Science: The Physics and

Chemistry of Sol Gel Processing. Academic Press. Inc. San Diego. CA.

Page. 108, 339-380.

Connoly, J.R. 2007. Introduction to X-Ray Diffraction, for EPS400-001. Spring

Company. Inc. p:3-86.

Cullity, B.D. 1978. Elements of X-Ray Diffraction. Addison-Wesley Publishing

Company, Inc. New Jersey, USA. Page. 84, 102.

Dongare, M.K., Ramaswamy, V., Gopinath, C.S., Ramaswamy, A.V. and

Schevrell, S. 2001. Oxidation Activity and 18O-isotop Exchange

Behavior of Cu-Stabilized Cubic Zirconia. Journal of Catalysis. Vol.

199. Page. 209-216.

Ekimav, A.I., Effros, A.I.L. and Anuchenko, A.A. 1985. Quantum Size Effect in

Semiconductor Microcrystal. Solid State Communication. Vol. 5611.

Page. 921-1524.

Esposito, S., Turco, M., Bagnasco, G., Cammarano, C. and Pernice, P. 2011. New

Insight Into The Preparation of Copper/Zirconia Catalysts By Sol-Gel

Method. Science Direct. Vol. 403. Page. 128-135.

Febrianto, E.Y. 1996. Pengaruh Penambahan Stabilisator Y2O3 terhadap Fracture

Toughness Komposit Keramik Alumina-Zirkonia. Seminar Fisika

Jakarta. Jakarta. Puslitbang Fisika Terapan-LIPI. Page. 27-32.

54

Fernandes, B.R. 2011. Makalah Sintesis Nanopartikel. Padang. Program Studi

Kimia Pascasarjana Univ. Andalas.

Ferragina, C., Di Rocco, R., Petrilli, L. 2004. Zinc Ions and Zinc Sulfide Particles

in Sol–Gel Zirconium Phosphate Synthesis, Thermal Behavior and X-ray

Characterization. Thermochimica Acta. Vol. 49. Page. 177.

Flemings, M.C. and Chan, R.W. 2000. Organization and Trends in Mater. Acta

Mater 48 Scie and Eng. Education in USA and Europe. Page. 371-383.

German, R.M. 1985. Liquid Phase Sintering. New York. Plenum.

Goldstein, J., Newbury, D.E., Joy, D.C., Lyman, C.E., Echlin, P., Lifhshin, E.,

Sawyer, L. and Michael, J.R. 1981. Scanning Electron Microscopy and

X-Ray Microanalysis, A textbook for Biologist. New York. Material

Scientist and Biologist.

Haissinky, M. and Adloff, J.P. 1965. Radiochemical Survey of the Elements.

Apllied Catalysis B:Environmental. Vol. 12. Page. 3017-315.

Hidayat, C., Supriyadi dan Prabondari. 2009. Pengembangan Zirkonia Agarosa

Sebagai Matrik untuk Biokatalis pada Amobilisasi Lipase Candida

Rugosa. Agritech Vol. 29 No. 3. Page. 159-166.

Hunter, B.A. 1997. Rietica for 85/98/Nt Vresion 1. 62. Australia.

Illisz, I., Dombi, A., Mogyorosi, K., Farkas, A. and Pekwny, I. 2002. Removal of

2-chlorophenol from Waterby Adsorption Combines with

Photocatalysis. Applied Catalysis B. Vol. 39. Page. 247-256.

Kisi, E.H. 1994. Rietveld Analysis of Powder Diffraction Pattern. Material

Forum. 18:135-153.

Lubis, N.Y. 2013. Skripsi Sintesis dan Karakterisasi Komposit ZrO2-CuO

Dengan Metode Sol Gel Sebagai Fungsi Waktu. Bandar Lampung. Fisika

FMIPA Universitas Lampung. Page 1-55.

Lutsman, B. and Kerze, F. Jr. 1995. The Metalurgy Zirconium. New York. Mc

Graw Hill Book Company, Inc. Page. 1-216.

Lopez, T., Alvarez, M., Tzompantzi, F. and Picquart, M. 2006. Photocatalytic

Degradation of 2,4-dichlorophenoxiacetic acid and 2,4,6-trichlorophenol

with ZrO2 and Mn/ ZrO2 Sol-Gel Materials. J Sol Gel Sci Techn. Vol. 37.

Page. 207-211.

Mackenzie, J.D. 1982. Zirconium Effect on the Synthesis and Textural Properties

of Organic Inorganic Hybrid Materials. Non-Cryst Solids. Volume. 3.

Page. 226-231.

55

Mahreni. 2010. Sintesis Membran Nanokomposit Nafion-SiO2 Menggunakan

Metode Sol-Gel. Jurnal Sains Materi Indonesia. Vol. II. No. 2 Page. 129-

133.

Masduki, B., Legowo, S., Suardi, N., Kardana., Al’Amin., Linda, S., Edy dan

Asep. 1994. Pemurnian dan Pembuatan Logam Zirkonium. Pusat

Dokumentasi dan Informasi Ilmiah. Lembaga Ilmu Pengetahuan

Indonesia.

Mc. Murdie, H.F., Morris, M.C., Evans, E.H., Paretzkin, B., Wong-NG, W. and

Hubbard, C.R. 1986. Methods of Producing Standards X-Ray

Diffraction Powder Patterns. Powder Diffraction. Vol 1. Page. 265-275.

Ohya, Y., Syuoka, I., Takayuki, B and Yasutaka, T. 2000. Preparation of CuO

Thin Film and Their Electrical Conductivity. CSJ Series Publication of

The Ceramic Society of Japan. Page.113-116.

Ozawa, T.C and Kang, S.J. 2004. Balls and Sticks : Easy-to-Use Structure

Visualisasi and Animation Creating Program. J Appl. Cryst. Vol. 37. Page.

679.

Purnama, H., Girgsdies, F., Ressler, T., Schattka, J.H., Carusso, R.A.,

Schomacker, R. and Schlogl, R. 2004. Activity and Selectivity of a

Nanostructured CuO-ZrO2 Catalyst in The Steam Reforming of Methanol.

Catalyst Letters. Vol. 94. Page. 61-68.

Ramaswamy, V., Bhagwat, M., Srinivas, D and Ramaswamy, A.V. 2004.

Structural and Spectral Features of Nano-Crystalline Copper-Stabilized

Zirconia. Catalysis Today. Vol. 97. Page. 63-70.

Ritzkopf, I., Vukojevic, S., Weidenthaler, C., Grunwaldt, J.D. and Schuth, F.

2006. Decreased CO Production in Methanol Steam Reforming Over

Cu/ZrO2 Catalysts Prepared by The Microemulsion Technique. Apllied

Catalysis A : General. Vol. 302. Page. 215-223.

Roziqin, M.M dan Tri Wahyuni, I. Perilaku Material Amorf Gelas Metalik Biner

dan Tersier Berbasis Zirkonium terhadap Laju Korosi. Journal PKM.

Surabaya. Fisika MIPA Universitas Airlangga. Page. 1-9.

Sajima., Nuraini, E. dan Handayani, A. 2006. Pembuatan ZrO2 dengan

Pengendapan Larutan Stripping Secara Catu dari Berbagai Keasaman dan

Volume. Seminar Nasional II SDM Teknologi Nuklir Sekolah Tinggi

Teknologi Nuklir. BATAN. Yogyakarta. Page. 69-75.

Sajima., Tunjung, I. dan Mulyono. 2007. Pembuatan Larutan Umpan Proses

Pengendapan Zr(OH)4 Menggunakan Metode Re-Ekstraksi. Seminar

Nasional III SDM Teknologi Nuklir STT Nuklir-BATAN. Yogyakarta.

Page. 73-79.

56

Schumck, J. 1992. The Properties of Zirconium and Its Alloys for Chemichal

Engineering Apllications. Ugine, France. Cezus. Centre de Recherches.

Sholikhati dan Prayitno. 2009. Penentuan Kecepatan Adsorpsi Boron Dalam

Larutan Zirkonium dengan Zeolit. Seminar Nasional V SDM Teknologi

Nuklir Yogyakarta. STTN. BATAN. Page. 639-646.

Simatupang, R.A. 2005. Pengaruh Aditif CaO dan Suhu Sintering Terhadap

Mikrostruktur Keramik PSZ (Partially Stabillized Zirconia). Jurnal

Sistem Teknik Industri Vol. 6. Fisika FMIPA USU. Page. 19-24.

Simbolon, S., Masduki., Busron dan Aryadi. 2000. Penentuan Unsur-Unsur Tak

Murnian di dalam Zirkonium Oksida dengan Metode Spektrografi Emisi.

Prosiding Presentasi Ilmiah Daur Bahan Bakar Nuklir V P2TBDU dan

P2BGDN-BATAN. Jakarta. Page. 639-646.

Smith, D. K and Newkirk, H.K. 1965. Crystal Structure of Baddeleyite

(Monoclinic ZrO2) and it’s Relation to The Polymorphism of ZrO2. Acta

Crystallography. Vol. 18. Page. 982.

Swanson, H.E., and Tatge, E. 1953. Standard X-Ray Diffraction Powder Pattern.

Washington D.C. United States Department of Commerce. National

Bureau of Standards Circular. Vol. 539. Page. 1-10.

Syamsuddin, Y. dan Husin, H. 2008. Hidrogenasi CO2 Menjadi Metanol dengan

Menggunakan Katalis Zeolit Alam, Zeolit Sintesa ZSM-5 dan Katalis

Sintesa Cu/ZnO/Al2O3. Jurnal Purifikasi. Vol. 9. No. 1. Teknik Kimia,

Fakultas Teknik, Universitas Syiah Kuala. Banda Aceh.

Tanabe, M., Hokim, J. and Nivea. 1997. Characterization and Catalytic Activity

of The Al-MCM-41 Prepare by Methode of Gel Equalibrium

Adjustment. Microporous Material Vol. 10. Page. 85-93.

Triwikantoro dan Sukendar, S. 2007. Nanokristalisasi Material Amorf Zr69,5 Cu12

Ni11Al7,5 antara Temperatur Transisi Gelas (Tg) dan Temperatur

Kristalisasi (Tx). Jurnal Fisika dan Aplikasinya. Vol. 3. No. 1. Jurusan

Fisika FMIPA ITS. Page.1-4.

Tunell, E.G., Posnjak, C.J. and Ksanda, Z. 1935. Kristallography. Vol. 90. Page.

120.

Tunell, E.G., Ponsjak, C.J. and Ksanda, Z. 1935. Identification of The Copper Ore

Minerals by Means of X-Rays Powder Diffraction Pattern. Zeit Krist.

Vol.90. Page.138-139.

Usada, W., Isyuniarto., Mintolo., Sukmajaya, S. 2001. Kajian Pustaka Prospek

Pengembangan Sel Bahan Bakar Oksida Padat. Vol. IV. No. 2.

57

Vahidshad, Y., Abdizadeh, H., Baharvandi, H.R. and Baseri, M.A. 2008. Effects

of Calcinations Temperature on The Structure of CuO-ZrO2

Nanoparticles. International Journal of Modern Physics B. World

Scientific Publishing Company. Vol. 22. Page. 3201-3209.

Vahidshad, Y., Abdizadeh, H., Baharvandi, H.R. and Baseri, M. Akbari. 2009.

Structural and Morphology of Nanopowders Copper-Stabilized Zirconia.

Surface Review and Letters. Vol. 16. Page. 569-577.

Vahidshad, Y and Abdizadeh, H. 2011. Influence of Taguchi Selected Parameters

on Properties of CuO-ZrO2 Nanoparticles Produced via Sol-Gel Method.

World Academy of Science, Engineering and Technology. Vol. 50. Page.

305-313.

Vahidshad, Y., Abdizadeh, H. and Asadi, S. 2012. Effect of Crystalline Size on

The Structure of Copper Doped Zirconia Nanoparticles Synthesized via

Sol-Gel. Journal of Nanostructures. Vol. 2. Page. 205-212.

Veda, R., Mahesh, B., Srinivas, D., and Ramaswamy, A.V. 2004. Structural and

Spectral Features of Nano-Crystalline Copper-Stabilized Zirconia.

Catalysis Today. Vol. 97. Page. 63-70.

Vlack, V.L.H. 1989. Ilmu dan Teknologi Bahan (Ilmu Logam dan Bukan Logam).

Edisi kelima. Jakarta. Erlangga. Hal.101-104.

Wang, D.-N., Guo, Y.-Q., Liang, K.-M., and Tao, K. 1999. A: Math. Phys.,

Astron. Sci. China, Ser. Vol. 42 Page. 80.

Wang, Y. and Caruso, R.A. 2002. Preparation And Characterization Of Cuo-ZrO2

Nanopowders. J. Mater. Chem. Vol. 12. Page. 1442-1445.

Widodo, S. 2010. Teknologi Sol-Gel Pada Pembuatan Nano Kristalin Metal

Oksida Untuk Aplikasi Sensor Gas. Seminar Rekayasa Kimia dan

Proses. Semarang. Jurusan Teknik Kimia. Universitas Diponegoro. Page.

1-8.

Wismadi, T. 2001. Pembuatan dan Karakterisasi Lapisan Tipis Copper Oxide

(CuO) Sebagai Sensor Gas. Bogor. Jurusan Fisika Fakultas Matematika

dan Ilmu Pengetahuan Alam Institut Pertanian Bogor. Page. 1-22.

William, C. 1991. Firing of Sintering (Densification) of Ceramics, Engineered

Material Handbook. Vol. 4. New York. ASM International Publisher.

Yandi-sage-blogspot.com/2009/07/html. 2009. Keramik Teknik. Diakses pada

tanggal 11 Februari. Pada tanggal 11.00 WIB.

Yang, H.H., Yan, J. H., Yao, M.H., Zhang, L., and Tang, Y.G. 2012.

Photocatalytic H2 Evolution Activity of CuO-ZrO2 Composite Catalyst

58

Under Simulated Sunlight Irradiation. Journal of Central South

University of Technology. Vol. 18. Page. 56-62.

Zoppi, R.A., Nunes, S.P., and Yoshida I.V.P. 1997. Hybrids Perfluorosulfonic

Acid Ionomer and Silicon Oxide by Sol-Gel Reaction From Solution:

Morphology and Thermal Analysis. Journal of Polymer. Vol. 39. Page.

1309-1315.