Professor
Prof. A R Kulkarni
Areas Of Expertise
- Electronic ceramics
- Energy storage
- Gas sensors
- Glass ceramics
- Synthetic rubber
- Recycled granules
- Polyester chips
- Plastic moulding powder
- Acrylic sheet
- Gum resin
- Strontium barium niobate
- Oxide ion conducting glasses
- Mmicro batteries
- A. Chalcogenides
- C. DSC
- C. impedance spectroscopy
- D. ionic conductivity
- D. Phase transitions
- Dibuytl phthalate
- Electrical conductivity
- Plasticisers
- Polymer electrolytes
- A. Composites
- A. Interfaces
- B. Sol-gel chemistry
- C. X-ray diffraction
- Coprecipitation
- Ferroelectric
- Microstructure
- Relaxor
- SBN
- Strontium carium niobate
- Ferroelectrics
- Impedance
- Permittivity
- Polarisation
- Relaxors
- Composite electrolyte
- Ionic conductivity
- Na2SO4
- PbTiO3
- Dielectric
- Duplex microstructure
- Lead-free ferroelectrics
- Microwave sintering
- Strontium barium niobate
- Composite electrolytes
- Ionic conductivities
- Na+ conductors
- Eco-friendly
- Lactobacillus sp.
- Nano titanium
- Nanoparticles
- (Sr Ba)Nb2O6
- Grain boundary
- Porosity
- residual stress
- Texture
- Blends
- Morphology
- Multi-wall carbon nano-tubes
- nanocomposites
- MWNT
- Rheology
- Poly(ethylene-co-methacrylic acid) ionomers
- Specific interactions
- Co-continuous morphology
- PA6/ABS blends
- Ionomers
- Polyamlde6
- Copolymer blends
- Polymer blends
- Morphological properties
- Polyolefin elastomer
- Thermal-properties
- Phase morphology
- Carbon-black
- Composites
- Polycarbonate
- Polyethylene
- Bio-nanotechnology
- Green synthesis
- Nano-silver
- Nanoparticle
- Plant system
- Nano-TiO2
- Nanomaterials
- Nanostructured tio2
- Biosynthesis
- Particles
- Electrolyses
- Thermal analyses
- NA conductors
- Solid-solutions
- Low dielectric-constant
- Cordierite system
- Particle-size
- Multilayer substrate
- Ltcc technology
- Phase
- Fabrication
- Package
- Force
- Stage
- Blends
- Conducting filler
- Morphology
- Dispersion
- Electrical conductivity
- Mechanical-properties
- Induced dispersion
- Conductivity
- Nanotubes
- Polyamide-6
- A. Laminates
- A. Polymer-matrix composites
- B. Electrical properties
- Nano-TiO2
- Conducting filler
- Dispersion
- A. Carbon nanotubes
- A. Nanocomposites
- D. Rheology
- E. Injection moulding
- Ceramics
- Composite materials
- Dielectric properties
- Polymers
- Electronic materials
- Electrical properties
- Microwave dielectric-properties
- Complex perovskite ceramics
- Infrared reflectivity
- Ionic parameters
- System
- Conduction
- BA(Y1/2NB1/2)O-3
- Bafe0.5nb0.5o3
- Relaxation
- Behavior
- Lithium-ion batteries
- Impedance
- Conductivity
- Dielectric analysis
- Complex modulus
- Rare earths
- LI-ION battery
- Spinel LIMN2O4
- Lithium
- Insertion
- Cathode
- Oxides
- Electrical measurements
- Transition
- ZN2TIO4
- Microstucture
- Resonators
- Stability
- Spinels
- Zn
- Ba(La1/2Nb1/2)O-3
- Impedance spectroscopy
- Impedance spectroscopy
- TB
- Lithium batteries
- Cathodes
- DC conductivities
- Relaxations
- Lithium cells
- Glasses
- Sintering
- Dielectric response
- Crystal structure
- Antiferroelectric binbo4
- Sintering behavior
- Impedance
- Dielectric-relaxation
- Ceramics
- Conducting polymers
- Gel electrolytes
- Small angle X-ray scattering
- X-ray diffraction
- Ba(La1/2Nb1/2)O3