Polymer matrix composites (PMCs) can have percolated networks of fillers or uniform core-shell structures depending on the fabrication process used. PMCs with percolated networks of electrically conductive fillers can be useful for various applications, including anti-static materials, electromagnetic interference (EMI) shielding, electronic-nose devices, sensors and conductors, while PMCs with uniform core-shell structures of dielectric and/or conductive fillers can be useful for applications such as embedded capacitors, gate dielectrics, energy storage devices and electromechanical transducers. In this research, experimental and computational investigations have been conducted on both types of polymer matrix composite systems. First, elec...
This research was designed to fabricate and characterize novel polyhedral phase segregated microstru...
Materials Research Society Spring 2015 Meeting (Poster T11.46)Polymers are extremely dynamic and wid...
The main objective of this thesis was to reduce the percolation threshold of conductive polymer comp...
For polymer-matrix composites (PMCs) that contain insulating matrices and conducting fillers, the el...
Materials are often classified into three primary groups: metals, ceramics, and polymers. Two or mor...
Polymer nanocomposites (PNCs) represent a radical alternative to conventional filled polymer...
Polymer composites containing nanosized fillers have generated explosive interest since the early 19...
Conventionally discrete passive components like capacitors, resistors, and inductors are surface-mou...
The electrical percolation of polymer-matrix composites (PMCs) containing hybrid fillers of carbon n...
Extensive research is being done today on embedded capacitors because of their promising application...
A set of experiments was designed and performed to gain a fundamental understanding of various aspec...
Polymer/ceramic nanocomposites benefit by combining high permittivities (r) of metal oxide nanoparti...
According to previous research, nanostructured carbon composites are positioned among others as prom...
Segregated highly conductive percolation networks in nanocomposites consisting of a polymethyl metha...
International audienceThree-dimensional Modeling of Percolation Behavior of Electrical Conductivity ...
This research was designed to fabricate and characterize novel polyhedral phase segregated microstru...
Materials Research Society Spring 2015 Meeting (Poster T11.46)Polymers are extremely dynamic and wid...
The main objective of this thesis was to reduce the percolation threshold of conductive polymer comp...
For polymer-matrix composites (PMCs) that contain insulating matrices and conducting fillers, the el...
Materials are often classified into three primary groups: metals, ceramics, and polymers. Two or mor...
Polymer nanocomposites (PNCs) represent a radical alternative to conventional filled polymer...
Polymer composites containing nanosized fillers have generated explosive interest since the early 19...
Conventionally discrete passive components like capacitors, resistors, and inductors are surface-mou...
The electrical percolation of polymer-matrix composites (PMCs) containing hybrid fillers of carbon n...
Extensive research is being done today on embedded capacitors because of their promising application...
A set of experiments was designed and performed to gain a fundamental understanding of various aspec...
Polymer/ceramic nanocomposites benefit by combining high permittivities (r) of metal oxide nanoparti...
According to previous research, nanostructured carbon composites are positioned among others as prom...
Segregated highly conductive percolation networks in nanocomposites consisting of a polymethyl metha...
International audienceThree-dimensional Modeling of Percolation Behavior of Electrical Conductivity ...
This research was designed to fabricate and characterize novel polyhedral phase segregated microstru...
Materials Research Society Spring 2015 Meeting (Poster T11.46)Polymers are extremely dynamic and wid...
The main objective of this thesis was to reduce the percolation threshold of conductive polymer comp...