Guilin 541004
China
Guilin University of Technology
Low permittivity, Lattice vibration, Packing fraction, Chemical bond, Microwave dielectric properties
excellent recoverable energy storage density, high maximum breakdown field strength, low grain size, energy storage capacitors.
NaNbO3 ceramic, Oxygen vacancy defect, Breakdown strength, Energy storage ceramic
lead-free ceramics, nano domains, energy storage density, relaxor ferroelectrics
energy storage, breakdown strength, BNST, Relaxing ferroelectric, high Pmax
Microwave dielectric ceramics, Flexural strength, Grain refinement, Temperature stable, Al2O3
BaTiO3, Breakdown field, Recoverable energy density.
Low permittivity, Microwave dielectric ceramics, Low temperature co-fired ceramic, Antenna
Enhance relaxor ability, NaNbO3 ceramic, High electric field, Oxygen vacancy defect
Energy storage performance, Defect engineering, (Bi0.5Na0.5)0.7Sr0.3TiO3-based, Relaxor ferroelectric, Fast charge-discharge rate
Energy storage density, Relaxor ferroelectric, Breakdown field strength, Rare earth element, Lead-free ceramic
Energy Storage, BNNT, relaxation behavior, Domain
BNT - based, energy storage density, relaxor ferroelectric, breakdown field strength, rare earth element
Relaxor ferroelectric, Energy storage density, Breakdown strength, Multiscale domains
(Bi0.5Na0.5)0.7Sr0.3TiO3-based, high Eb, Relaxor ferroelectrics, Energy storage density
Lead-free ceramics, Capacitive energy storage, Polar nanoregions, Interfacial polarization