The mechanisms governing the dielectric blend properties at different length scales for phase separating blends with multiwall carbon nanotubes (MWNTs) are unravelled by tuning the microstructure. Thereto, compatibilization by interfacially segregated block copolymers (bcp) and random copolymers (rcp) of poly(styrene-random/block-methyl methacrylate) (PS-r/b-PMMA) was achieved in phase-separating blends of poly[(α-methylstyrene)-co-acrylonitrile] and poly(methyl methacrylate) (PαMSAN/PMMA) undergoing spinodal decomposition. In our recent work, we elucidated the effects of copolymer architecture and molecular weight on the percolating network of selectively localized MWNTs. Only short bcp and long rcp/bcp improved the connectivity and refine...
We present novel routes to tune the phase-separated morphology and the percolated network of multiwa...
The need for conducting polymeric materials in applications such as flexible electronics and soft ro...
Block copolymers continue to attract a great deal of interest since they allow the formation of micr...
The mechanisms governing the dielectric blend properties at different length scales for phase separa...
© 2017 American Chemical Society. The mechanisms governing the dielectric blend properties at differ...
The mechanism governing the electrical properties for phase separating blends containing multiwall c...
A bicontinuous PαMSAN/PMMA blend with a percolated MWNTs network in PαMSAN was engineered by compati...
We describe an approach to engineer bi-continuous conductive blends of polymers and multiwall carbon...
Broadband dielectric spectroscopy (BDS) is often used to probe the electrical percolation threshold ...
The demand for flexible conductive polymeric materials is on the rise in applications such as EMI sh...
The concentration of conducting fillers for rendering a continuous conductive pathway is referred to...
We present novel routes to tune the phase-separated morphology and the percolated network of multiwa...
The need for conducting polymeric materials in applications such as flexible electronics and soft ro...
Block copolymers continue to attract a great deal of interest since they allow the formation of micr...
The mechanisms governing the dielectric blend properties at different length scales for phase separa...
© 2017 American Chemical Society. The mechanisms governing the dielectric blend properties at differ...
The mechanism governing the electrical properties for phase separating blends containing multiwall c...
A bicontinuous PαMSAN/PMMA blend with a percolated MWNTs network in PαMSAN was engineered by compati...
We describe an approach to engineer bi-continuous conductive blends of polymers and multiwall carbon...
Broadband dielectric spectroscopy (BDS) is often used to probe the electrical percolation threshold ...
The demand for flexible conductive polymeric materials is on the rise in applications such as EMI sh...
The concentration of conducting fillers for rendering a continuous conductive pathway is referred to...
We present novel routes to tune the phase-separated morphology and the percolated network of multiwa...
The need for conducting polymeric materials in applications such as flexible electronics and soft ro...
Block copolymers continue to attract a great deal of interest since they allow the formation of micr...