1- T.T. Fang and H. K. Shiau, “ Mechanismfor Developing the Boundary Barrier Layers of
CaCu3Ti4O12,” J. Am. Ceram. Soc., 2004, 87.,2072–9.
2- J. F. Fernandez, P. Leret, J. J. Romero, J. deFrutos, M. A. de la Rubia, M. S. M. Gonzalez,
J. L. C. Kramer, J. L. G. Fierro, A. Quesada,and M. A. Garcia, “Proofs of the Coexistence
of Two Magnetic Contributions in Pure andDoped CaCu3Ti4O12 Giant Dielectric Constant
Ceramics,” J. Am. Ceram. Soc., 2009, 92.,2311–8.
3- T. B. Adams, D. C. Sinclair, and A. R.West, „„Influence of Processing Conditions on
the Electrical Properties of CaCu3Ti4O12Ceramics,” J. Am. Ceram. Soc., 2006, 89.,
3129–35.
4- P. B. A. Fechine, A. F. L. Almeida, F. N. A.Freire, M. R. P. Santos, F.M.M. Pereira, R.
Jimenez, J. Mendiola, and A.S.B. Sombra,„„Dielectric Relaxation of BaTiO3 (BTO)–
CaCu3Ti4O12 (CCTO) Composite ScreenprintedThick Films at Low Temperatures,”
Mater. Chem. Phys., 2006, 96., 402–8.
5- Y. Q. Tan, J. L. Zhang, W. T. Hao, G. Chen,W. B. Su, and C. L. Wang, „„Giant DielectricPermittivity
Property and Relevant Mechanismof Bi2/3Cu3Ti4O12 ceramics,” Mater. Chem.
Phys., 2010, 124., 1100–4.
6- D. Mandal, A. K. Rai, D. Kumar, and O.Parkash, „„Dielectric Properties of the
Ca1−xLaxCu3Ti4−xCoxO12 System (x = 0.10, 0.20and 0.30) Synthesized by Semi-wet Route,” .
Alloy. Compd., 2009, 478., 771–6.
7- Thomas, K. Dwarakanath, K. B. R. Varmaand T. R. N. Kutty, „„Synthesis of
Nanoparticles of the Giant Dielectric Material,CaCu3Ti4O12 from a precursor route,” J.
Therm. Anal. Calorim., 2009, 95., 267–72.8- B.S. Prakash and K. B. R. Varma, „„Effect
of Sintering Conditions on the Microstructural,Dielectric, Ferroelectric and Varistor
Properties of CaCu3Ti4O12 and La2/3Cu3Ti4O12Ceramics Belonging to the High and Low
Dielectric Constant Members of ACu3M4O12(A = alkali, alkaline-earth metal, rare-earth
metal or vacancy, M = transition metal) familyof oxides,” Physica B., 2008, 403., 2246–54.
9- K. Chen, Y. F. Liu, F. Gao, Z .L. Du, J. M.Liu, X. N. Ying, X. M. Lu, and J. S. Zhu, „„Ti
Deficiency Effect on the Dielectric Responseof CaCu3Ti4O12 Ceramics,” Solid. State.
Commun., 2007, 141., 440–4.
10- M. A. Subramanian, and A. W. Sleight,„„ACu3Ti4O12 and ACu3Ru4O12 Perovskites:
High Dielectric Constants and ValenceDegeneracy,” Solid. State. Sci., 2002, 4., 347–
51.
11- S. W. Choi and S. H. Hong, “Effect of AlDoping on the Electric and Dielectric
Properties of CaCu3Ti4O12,” J. Am. Ceram.Soc., 2007, 90., 4009–11.
12- D. L. Sun, A. Y. Wu, and S. T. Yin,„„Structure, Properties, and Impedance
Spectroscopy of CaCu3Ti4O12 CeramicsPrepared by Sol–Gel Process,” J. Am. Ceram.
Soc., 2008, 91., 169–73.
13- F. Amaral, M. Valente, and L. C. Costa,„„Synthesis and Characterization of Calcium
Copper Titanate Obtained by Ethylene diaminetetra acetic acid gel combustion,” Mater.
Chem. Phys., 2010, 124., 580–6.
14- J. Xue, D. Wan, S.E. Lee, and J. Wang,“Mechanochemical Synthesis of Lead
Zirconate Titanate from Mixed Oxides,” J. Am.Ceram. Soc., 1999, 82., 1687–92.
15- R. Amini, M. J. Hadianfard, E.Salahinejad, M. Marasi, and T. Sritharan,
„„Microstructural phase evaluation of highnitrogenFe–Cr–Mn alloy powders synthesized
by the mechanical alloying process,” J. Mater.Sci, 2009, 44., 136-48.
16- S. K. Manik, and S. K. Pradhan,„„Microstructure Characterization of Ball-millprepared
Nanocrystalline CaCu3Ti4O12 byRietveld Method,” Physica E, 2006, 33., 160–
168.
17- C. Suryanarayana, “Recent Advances inthe Synthesis of Alloy Phases by Mechanical
Alloying/Milling,” Metal. Mater. Int., 1996, 2.,195-209.
18- J. Eckert, L. Schultz, and K. Urban,“Progress of Quasicrystal Formation During
Mechanical Alloying in Al-Cu-Mn and theInfluence of the Milling Intensity,” Z.
Metallkd.,1990, 81, 862-868.
19- A. R. Miedema, P. F. de Chatel, and F. R.de Boer, “Cohesion in Alloys-Fundamentals of
a Semi-empirical Model,” Physica B, 1980,100., 1-28.
20- D . M . Rowe, Thermoelectrics Handbook,Macro to Nano; 19: 1–18, CRC Press, 2006.
21- D. Kuscer, J. Holc, and M. Kosec,„„Mechano-Synthesis of Lead–Magnesium–
Niobate Ceramics,” J. Am. Ceram. Soc., 2006,89., 3081–8.
22- D. Kuscer, E. T. Sturm, J. Kovac, and M.Kosec, „„Characterization of the Amorphous
Phase and the Nanosized Crystallites in HighEnergy-MilledLead–Magnesium–Niobate
Powder,” J. Am. Ceram. Soc., 2009, 92., 1224–1229.
23- C. Suryanarayana, Mechanical Alloyingand Milling; pp. 183–241. CRC Press, 2004.
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