Sains Malaysiana 38(2): 219-226(2009)

Phase Formation and Dielectric Properties of Pentavalent Cation Doped 

Non- stoichiometric Bismuth Zinc Niobate (BZN) Cubic Pyrochlore

(Pembentukan Fasa dan Sifat Dielektrik bagi Kubik Piroklor Bismuth Zink Niobate (BZN) Tak Stoikiometrik yang Didop dengan Kation Penta-valensi)  

K.B. Tan, C.C. Khaw & Z. Zainal

Chemistry Department, Universiti Putra Malaysia

43400 Serdang, Selangor, Malaysia

C.K. Lee

Academic Science Malaysia

902-4 Jalan Tun Ismail, 50480 Kuala Lumpur , Malaysia

H. Shaari

Physics Department, Universiti Putra Malaysia

43400 Serdang, Selangor , Malaysia

Received:   16 Mei 2008 / Accapted:   24 June 2008

ABSTRACT

In an attempt to synthesize new solid solutions and search for better performance materials, pentavalent cation dopants were introduced into the non stoichiometric BZN cubic pyrochlore, Bi₃Zn_1.84Nb₃O_13.84. Extensive solid solutions were formed in Bi₃Zn_1.84Nb_3-xD_xO_13.84 with limit at x = 3 and 2.6 for D = Ta and Sb, respectively. This illustrates the possibility of cation-exchange solid solutions due to similarity in dopants’ ionic radii. The elemental analysis confirmed the stoichiometry of doped materials with no deleterious Bi₂O₃  loss.  Ta / Sb doped samples were highly resistive with activation energies ranging from 1.2 - 1.9 eV. Temperature coefficient of capacitance, T_CC, decreased from -396 ppm / ^oC to ~ -180 ppm / ^oC and ~ -90 ppm / ^oC for both end members, respectively.

 Keywords:   Chemical doping; electroceramics;  pyrochlore; solid solutions

ABSTRAK

Sebagai ikhtiar untuk mengkaji pembentukan larutan pepejal yang baru dan menerokai bahan yang lebih berprestasi, kation penta-valensi telah didopkan dalam piroklor kubik BZN, Bi₃Zn_1.84Nb₃O_13.84. Larutan pepejal yang ekstensif telah terbentuk dalam siri Bi₃Zn_1.84Nb_3-xD_xO_13.84 dengan had x = 3 dan 2.6 untuk D = Ta dan Sb masing-masing. Fenomena ini menunjukkan satu kebarangkalian untuk membentuk larutan pepejal saling-tukar akibat daripada kesamaan jejari ionik. Analisis unsur membuktikan stoikiometrik dan juga tiadanya kehilangan Bi₂O₃ dalam bahan yang telah didopkan. Sementara itu, bahan yang didop dengan Ta / Sb adalah berintangan tinggi dengan tenaga pengaktifan sekitar 1.2-1.9 eV. Manakala, pekali suhu kapasitan, Tcc merosot dari -396 ppm / ^oC ke  to ~ -180 ppm / ^oC and ~ -90 ppm / ^oC  bagi kedua-dua ahli hujung, masing-masing.

Kata kunci: larutan pepejal; piroklor; pendopan kimia; seramik elektronik

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