DAFTAR PUSTAKA. [Online]. Tersedia: html [4 Desember 2013]

(1)

DAFTAR PUSTAKA

Barbalace, K. L. 2013. Periodic Table of Elements. Element Erbium – Er [Online]. Tersedia: http://environmentalchemistry.com/yogi/periodic/Er. html [4 Desember 2013]

Barbalace, K. L. 2013. Periodic Table of Elements. Element Erbium – Er [Online]. Tersedia: http://environmentalchemistry.com/yogi/periodic/Er. Html [4 Desember 2013]

Bazant. 2011. Equivalent Circuit Models. Lecture 6: Impedance of Electrodes.

MIT Student and MZB.

Callister, W. D. 2007. Materials Science and Engineering An Introduction. New

York: John Willey & Sons, Inc.

Carter, C. B. dan Norton, M. G. 2007. Ceramic Materials Science and

Engineering. Springer.

Chaouchi, A. dan Kennour, S. 2012. Impedance Spectroscopy Studies on Lead

Lree (Ba0.85Ca0.15)(Ti0.9Zr0.1)O3 Ceramics. Processing and Application of

Ceramics. 6, (4), 201–207.

Chesnaud, A. 2009. Use of a New Graphical Representation of Impedance Data

to Investigate Bulk and Grain Boundaries Conductivities. Application to Ti-Substituted Nd4O2(Ga2O7) Materials. Centre des Matériaux,

Mines-ParisTech, BP87, 91003 Evry Cedex, France

Clegg, W. J. 2012. Materials Science: Ceramics. Department of Materials Science and Metallurgy, University of Cambridge.

Direktorat Jendral Ketenagalistrikan Kementrian Energi dan Sumber Daya Mineral (DJK KESDM). 2012. Rasio elektrifikasi nasional (1980 – 2012). Jakarta.

Dudek, M. et al. 2006. Calcium Zirconate as A Solid Electrolyte for

Electrochemical Devices Applied in Metallurgy. Materials Science-Poland.

(2)

Duangmanee, T. et al. 2008. Electrical Property of Thick Film Electrolyte for

Solid Oxide Fuel Cell. Journal of Metals, Materials and Minerals. 18, (2),

7-11.

Fiqrotul. 2011. Karakteristik Struktur, Sifat Keramik dan Teknik Pemrosesan

Keramik. Wordpress [Online]. Tersedia: http://fiqrotul.wordpress.com/

2011/12/14/karakteristik-struktur-dan-sifat-keramik [29 Juni 2013]

Goodenough, J. B. 1997. Ceramic Solid Electrolytes. Solid State Ionics. 94, 17-25.

Gores, H. J. dan Barthel, J. M. G. 1995. Nonaqueous Electrolyte Solutions: New

Materials for Devices and Processes Based on Recent Applied Research.

Pure &Applied Chermistry. 67, (6), 919-930.

Halliday, D. dan Resnick, R. 1984. Fisika. Edisi Ketiga. Jilid 2. Jakarta: Erlangga. Hench, L. L. 1991. Bioceramics: From Concept to Clinic. Journal American

Ceramic Society. 74, (7), 1487-1510.

Indayaningsih, N. et al. 2003. Pembuatan Komponen SOFC dan

Penggabungannya dalam Pembentukan Sel Bahan Bakar. Prosiding

Pemaparan Litbang IPT 2003: Buku I. A. 105 – A. 115.

Ishikawa, H. et al. 2006. Combustion Synthesis of Doped Lanthanum Gallate as an Electrolyte for Solid Oxide Fuel Cells. Materials Transactions. 47, (1),

149-155.

Ismunandar. 2004. Keramik. Kimianet [Online]. Tersedia: http://

www.kimianet.lipi.go.id/utama.cgi?artikel&1100398016&2 [1 Juli 2013] Kantor Menteri Negara Lingkungan Hidup. 1999. Kawasan Kars di Indonesia:

Potensi dan Pengelolaan Lingkungannya. Jakarta.

Martin, U., Boysen, H. dan Frey, F. 1993. Acta Crystallographica B, 49, 403 [Online]. Tersedia: staff.aist.go.jp/nomura-k/common/struc-coord/ZrO2-CaO-c.htm [11 September 2013]

Marques, F. M. B. dan Figueiredo, F. M. L. 2013. Electrolytes for solid oxide fuel

(3)

Muccillo, R., Netto, R. C. B. Dan Muccillo, E. N. S. 2001. Synthesis and

Characterization of Calcia Fully Stabilized Zirconia Solid Electrolytes.

Materials Letters. 49, 197-201.

Nurhayati, S. 2012. Pengaruh Suhu Sinter terhadap Karakteristik Keramik CSZ

dengan Penambahan Natrium Karbonat untuk Elektrolit Padat. Universitas

Pendidikan Indonesia: Tidak diterbitkan.

Poernomo, H. 2012. Informasi Umum Zirkonium. Yogyakarta: Badan Tenaga Nuklir Nasional Pusat Teknologi Akselerator Dan Proses Bahan.

Rosseinsky, M. J. et al. 2008. Interstitial Oxide Ion Conductivity in the Layered

Tetrahedral Network Melilite Structure. Nature Materials. 7, 498-504.

Ruswanti, E. 2012. Pengaruh Penambahan Nickel Oxide (NiO) Terhadap

Konduktivitas Ionik Keramik Calcia Stabilized Zirconia (CSZ) Untuk Elektrolit Solid Oxide Fuel Cell (SOFC). Bandung: Universitas Pendidikan

Indonesia.

Septawendar, R., Purwasasmita, B. S. dan Sutardi, S. 2013. Effect of the

Hydrolysis Catalyst NH4OH on the Preparation of Calcia Stabilized

Zirconia with Sugar as A Masking Agent at Low Temperatures. Journal of

the Australian Ceramic Society. 49, (1), 101- 108.

Shakhashiri. 2009. Lime: Calcium Oxide – CaO. Chemical of The Week. Chemistry 103-1.

Shen, Q. et al. 2009. Change of Phase Composition in Calcia-Stabilized Zirconia

Cermics Using a Boric Acid Additive. Journal of The Ceramics Society of

Japan. 117, (4), 449-451.

Soe, N. N., Shwe, L. T. dan Lwin, K. T. 2008. Study on Extraction of Lanthanum

Oxide from Monazite Concentrate. World Academy of Science, Engineering

and Technology. 46, 124-145.

Stambouli, A. B. dan Traversa, E. 2002. Solid Oxide Fuel Cells (SOFCs): A

Review of An Environmentally Clean and Efﬁcient Source of Energy.

Renewable and Sustainable Energy Reviews. 6, 433–455.

(4)

Stouten, H. 2006. Calcium Oxide.Health-Based Recommended Occupational

Exposure Limit. Dutch Expert Committee on Occupational Standards. 8-13.

Subiyanto, H. dan Subowo. 2003. Pengaruh Temperatur Sintering terhadap Sifat

Mekanik Keramik Insulator Listrik. Jurnal Teknik Mesin. 3, (1), 16-19.

Syarif, D. G. et al. 2010. Synthesis of 8YSZLSGM Composite Thick Film

Ceramics for Solid Electrolyte From Nanopowder Utilizing Local Zircon Prepared Using Sol Gel Process, AIP Conference Proceedings. 1284, 46-50

Syarif, D. G. et al. 2013. Effect of LSGM Addition on Electrical Characteristic of

8YSZ Ceramics for Solid Electrolyte. Journal of The Australian Ceramic

Society. 49, (2), 52-59.

Taroco, H. A. et al. 2011. Ceramic Materials for Solid Oxide Fuel Cells. Brasil: Department of Chemistry, Universidade Federal de Minas Gerais.

Tipler, P. A. 1998. FISIKA. Untuk Sains dan Teknik. Jakarta: Erlangga.

Uslu, I. et al. 2013. Synthesis and Characterization of Erbia and Ceria Doped

Calcia Stabilized Nanocrystalline Zirconia Based Ceramics. Journal

Sol-Gel Science Technology. 65, 112–120.

Vella, L. 2010. Debye Length. Physics Forums [Online]. Tersedia: http:// www.physicsforums.com /showthread.php?t=75706 [5 November 2013] Vila, J. et al. 2007. Temperature Behavior of the Electrical Conductivity of

Emim-Based Ionic Liquids in Liquid and Solid States. Portugaliae Electrochimica

Acta. 25, 163-172.

Wang, X. 2010. Ionic Conducting Composite as Electrolyte for Low Temperature

Solid Oxide Fuel Cells. Sweden: Functional Materials Division, School of

Information and Communication Technology, Royal Institute of Technology.

West, A. R. 1999. Basic Solid State Chemistry. New York: John Wiley & Sons, Inc.

Winter, M. 2012. Calcium Compounds: Calcium Oxide. WebElements [Online]. Tersedia: www.webelements.com/compounds/calcium/calcium_oxide. html [22 Juli 2013]

(5)

Winter, M. 2012. Zirconium Compounds: Zirconium Oxide. WebElements

[Online]. Tersedia: www.webelements.com/compounds/zirconium/

zirconium_oxide.html [22 Juli 2013]

Winter, M. 2012. Zirconium: The Essentials. WebElements [Online]. Tersedia: www.webelements.com/compounds/zirconium/ [22 Juli 2013]

Winter, M. 2012. Compounds of Lanthanum: Lanthanum (III) Oxide.

WebElements [Online]. Tersedia: www.jpkc.whut.edu.cn/web18/main/

wangluo/webelements/webelements/compounds/text/la/la2o3-1312818. html [29 Juli 2013]

Yanagida, H., Koumoto, K. dan Miyayama, M. 1996. The Chemistry of Ceramics. New York: John Wiley & Sons.

Zhang, F. et al. 2007. In Study of the Crystallization from Amorphous to Cubic

Zirconium Oxide: Rietveld and Reverse Monte Carlo Analyses. Chem.

Mater. 19, (13), 3118-3126.

Zuo, C., Liu, M. dan Liu, M. 2012. Solid Oxide Fuel Cells. Atlanta: School of Materials Science and Engineering, Georgia Institute of Technology.

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