|
Volumn 5, Issue 12, 2017, Pages 3130-3138
|
Tunable electromagnetic interference shielding effectiveness via multilayer assembly of regenerated cellulose as a supporting substrate and carbon nanotubes/polymer as a functional layer
|
Author keywords
[No Author keywords available]
|
Indexed keywords
CARBON;
CARBON NANOTUBES;
CELLULOSE;
CELLULOSE FILMS;
CONDUCTIVE FILMS;
DETERIORATION;
ELASTIC MODULI;
ELECTRIC CONDUCTIVITY;
ELECTROMAGNETIC PULSE;
ELECTROMAGNETIC SHIELDING;
ELECTROMAGNETIC WAVE INTERFERENCE;
ETHYLENE;
HYBRID SYSTEMS;
INTERFACES (MATERIALS);
MAGNETIC SHIELDING;
MULTILAYER FILMS;
MULTILAYERS;
NANOTUBES;
OXIDE FILMS;
POLYETHYLENE OXIDES;
RADIATION SHIELDING;
SHIELDING;
SIGNAL INTERFERENCE;
SUBSTRATES;
TENSILE STRENGTH;
YARN;
ELECTRICAL CONDUCTIVITY;
ELECTROMAGNETIC INTERFERENCE SHIELDING EFFECTIVENESS;
EMI SHIELDING EFFECTIVENESS;
HIGH ELECTRICAL CONDUCTIVITY;
MULTILAYER ASSEMBLIES;
POLY (ETHYLENE OXIDE) (PEO);
PORTABLE ELECTRONIC DEVICES;
REGENERATED CELLULOSE;
COMPOSITE FILMS;
CARBON FIBERS;
CELLULOSE;
INTERFERENCE;
MECHANICAL PROPERTIES;
REGENERATED CELLULOSE;
RESISTIVITY;
|
EID: 85016096046
PISSN: 20507534
EISSN: 20507526
Source Type: Journal
DOI: 10.1039/c6tc05516h Document Type: Article |
Times cited : (145)
|
References (62)
|