Construction of an Interconnected Nanostructured Carbon Black Network: Development of Highly Stretchable and Robust Elastomeric Conductors

In the present work, a strong filler–filler network of conductive carbon black was strategically established in an elastomer matrix, which leads to a unique combination of electrical and mechanical properties. The novelty of our composites was the development of a strong percolated morphology of nanostructured conducting carbon black particles by the incorporation of relatively large nonreinforcing spherical silica particles, inside the soft elastomer matrix. This technique allowed us to fabricate solution styrene butadiene rubber (S-SBR) composites with outstanding electrical conductivity of 40 S/m, tensile strength ∼10 MPa, and extensibility up to 200%. Furthermore, the electrical conductivity was strain-independent up to 50% elongation strain. The electrical conductivity was found to be unaltered after 2000 loading–unloading cycles. This is the first ever report of a robust elastomeric system with such high electrical conductivity where all the basic ingredients used were selected from well-known comme...

[1]  R. E. Whittaker,et al.  Low Strain Dynamic Properties of Filled Rubbers , 1971 .

[2]  A. K. Tyagi,et al.  Development of a novel strain sensor based on fluorocarbon–elastomeric nanocomposites: Effect of network density on the electromechanical properties , 2015 .

[3]  G. Kraus Swelling of filler‐reinforced vulcanizates , 1963 .

[4]  R. Joseph,et al.  Swelling behaviour of isora/natural rubber composites in oils used in automobiles , 2006 .

[5]  S. Maiti,et al.  A strategy for achieving low percolation and high electrical conductivity in melt-blended polycarbonate (PC)/multiwall carbon nanotube (MWCNT) nanocomposites: Electrical and thermo-mechanical properties , 2013 .

[6]  E. Gallo,et al.  Effect of well dispersed amorphous silicon dioxide in flame retarded styrene butadiene rubber , 2013 .

[7]  Minna Poikelispää,et al.  Influence of nanoclay‐carbon black hybrid fillers on cure and properties of natural rubber compounds , 2013 .

[8]  E. Guth,et al.  Untersuchungen über die Viskosität von Suspensionen und Lösungen. 3. Über die Viskosität von Kugelsuspensionen , 1936 .

[9]  G. Heinrich,et al.  ELASTOMER COMPOSITES BASED ON CARBON NANOTUBES AND IONIC LIQUID , 2013 .

[10]  E. Guth Theory of Filler Reinforcement , 1945 .

[11]  Arved C. Hübler,et al.  Device and circuit simulation of printed polymer electronics , 2007 .

[12]  C. Ha,et al.  Polymers for flexible displays: From material selection to device applications , 2008 .

[13]  Hsu-Chiang Kuan,et al.  A novel approach to electrically and thermally conductive elastomers using graphene , 2013 .

[14]  A. R. Payne The Dynamic Properties of Carbon Black-Loaded Natural Rubber Vulcanizates. Part I , 1962 .

[15]  T. Someya,et al.  A Rubberlike Stretchable Active Matrix Using Elastic Conductors , 2008, Science.

[16]  Ning Hu,et al.  Piezoresistive Strain Sensors Made from Carbon Nanotubes Based Polymer Nanocomposites , 2011, Sensors.

[17]  Tao Liu,et al.  A Review: Carbon Nanotube-Based Piezoresistive Strain Sensors , 2012, J. Sensors.

[18]  G. Kraus Reinforcement of elastomers by carbon black , 1978 .

[19]  Kostas Kostarelos,et al.  The long and short of carbon nanotube toxicity , 2008, Nature Biotechnology.

[20]  Y. Liu,et al.  Understanding the toxicity of carbon nanotubes. , 2013, Accounts of chemical research.

[21]  C. Baudot,et al.  Characteristics of the Electrical Percolation in Carbon Nanotubes/Polymer Nanocomposites , 2011 .

[22]  S. Cartmell,et al.  Conductive polymers: towards a smart biomaterial for tissue engineering. , 2014, Acta biomaterialia.

[23]  John J Boland,et al.  Transparent, flexible, and highly conductive thin films based on polymer-nanotube composites. , 2009, ACS nano.

[24]  G. Heinrich,et al.  Advanced elastomer nano-composites based on CNT-hybrid filler systems , 2009 .

[25]  Qiang Fu,et al.  Fabrication of highly stretchable conductors via morphological control of carbon nanotube network. , 2013, Small.

[26]  Gert Heinrich,et al.  Recent Advances in the Theory of Filler Networking in Elastomers , 2002 .

[27]  A. Sircar,et al.  Electrical Properties of Stretched Carbon Black Loaded Vulcanizates , 1969 .

[28]  G. Heinrich,et al.  Development of conducting polychloroprene rubber using imidazolium based ionic liquid modified multi-walled carbon nanotubes , 2011 .