Archives

• 1. Kinetics of First Order Phase Transformation in Se75Te19In6 Glass for Phase Change Memory By-  Archana Srivastava1*, S. N. Tiwari2, Anis Ahmad3, Shamshad A. Khan1  
  ( Posted On : 21-05-2017 )
• 2. Influence of Thermal Annealing on Se75Te22Cd3 Thin Film for Optical Data Storage By-  Ravi P. Tripathi1*, Vishal Singh Chandel2, Shamshad A. Khan1  
  ( Posted On : 03-06-2017 )
• 3. Factors Affecting the Pace of Development Of Source of Nuclear Fusion Energy By-  Mohammad Imran Aziz  
  ( Posted On : 31-05-2017 )
• 4. Photovoltaic Cells: Present Scenario and Future Prospects By-  Tahira Khatoon*, Vishal Singh Chandel, Mohd Asim Siddiqui, Navshad Alam  
  ( Posted On : 31-05-2017 )
• 5. Hybrid Electricity Generation from Solar PV, Speed Breaker and Traffic Sound for Automatic Street Light By-  F. A. Khan1, M. Alam1 S. H. Saeed2, V. S. Chandel3, N. R. Kidwai4  
  ( Posted On : 31-05-2017 )
• 6. Perovskite Materials: Future Prospects for Energy Storage Applications By-  N. Alam1*, S. Tripathi1, M. A. Siddiqui1, V. S. Chandel1, T. Khatoon1, A. Azam2  
  ( Posted On : 09-06-2017 )

Calcium copper titanate (CCTO) is a high dielectric constant material of cubic perovskite structure with low dielectric losses. The material is attractive in many areas such as; electronics, solid-state etc. because of high dielectric permittivity. This review of CCTO has explored the possibilities of CCTO bulk ceramics in energy storage applications. The synthesized material has properties which can be used for fabricating an efficient energy storage device (EDS). Because of high breakdown voltage, it is also found that permittivity of CCTO is higher than barium titanate (BT) and tangent loss is low at 1 MHz. It is compatible for class II capacitors.

- Sachin Tripathi*, Navshad Alam, Mohd. Asim Siddiqui and Vishal Singh Chandel *