CONTENTS
|
Electromagnetism, Optics, Acoustics, Heat Transfer, Classical Mechanics and Fluid Dynamics
| |
Optical properties of PVC-MWCNT nano composites
|
77
|
|
81
|
Condensed Matter: Structural, Mechanical and Thermal Properties
| |
Equation of state for nanomaterials from thermal expansion
|
87
|
High pressure equation of state for nano materials
|
94
|
Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties
| |
Simple method of controlling the resistivity of silver sulphide thin film prepared by chemical conversion technique
|
98
|
Study of molecular interaction between some primary alcohols and anilines using concentration dependent dielectric properties
|
104
|
Electrostatic charge dissipation and electromagnetic interference shielding response of polyaniline based conducting fabrics
|
112
|
Neural network-based prediction of effective thermal conductivity of loose multi-phase systems
|
118
|
High field conduction in thin films of Se100-xPbx glassy alloys*
|
125
|
Magneto-transport and mechanical properties of thermally evaporated Cd chalcogenide films
|
131
|
Authors for correspondence are indicated by (*)
Keyword Index
Amorphous semiconductors 125
Antistatic fabrics 112
Artificial neural network 118
Bruggeman parameter 104
Carbon nanotubes 77, 94
Chalcogenide glasses 125
Chemical conversion technique 98
Conducting polymers 112
Effective thermal conductivity 118
Elastic stiffness constant 131
Electrical conductivity 112
Electromagnetic interference shielding 112
Electrostatic dissipation 112
Equation of state 87, 94
Excess static dielectric constant 104
Feedforward backpropagation 118
Fiber-optic connector 81
Fluoro substituted anilines 104
Hall effect 131
High field conduction 125
High pressure 94
Hydrogen bonding 104
Localized states 125
Loose multi-phase systems 118
Magneto resistance 131
Microlens 81
Molecular ineraction 104
Multi Wall Carbon Nanotube 77
Nanomaterial 87
Optical properties 77
Optimization design 81
Polyaniline 112
Polyvinyl chloride 77
Resistivity 98
Space charge limited conduction 125
Thermal expansion 87
Thin film 98
Transverse magneto resistance 131
Verticle-cavity surface emitting laser 81
Vicker’s hardness number 131
Yield strength 131
No comments:
Post a Comment