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Electroactive performance and cost evaluation of carbon nanotubes and carbon black as conductive fillers in self-healing shape memory polymers and other composites

Felipe Orozco, Alex Salvatore, Anchista Sakulmankongsuk, Diego Ribas Gomes, Yutao Pei, Esteban Araya‐Hermosilla, Andrea Pucci, Ignacio Moreno‐Villoslada, Francesco Picchioni, Ranjita K. Bose

2022Polymer63 citationsDOIOpen Access PDF

Abstract

Multiwalled carbon nanotubes (MWCNT) and carbon black (CB) have been widely used as conductive fillers in electroactive polymer composites. MWCNT-based composites generally have lower resistivity and percolation thresholds, while CB-based ones are considerably cheaper. To balance these pros and cons, ternary composites (TCs) (polymer-MWCNT-CB) can be formulated. Here, we prepared electroactive MWCNT-CB TCs capable of self-healing and with shape memory properties, based on polyketones reversibly-crosslinked via Diels-Alder chemistry. Unexpectedly, the cheaper CB-rich formulations had lower resistivities, thus better electroactive self-healing and shape memory responses. Nonetheless, not all electroactive MWCNT-CB TCs have this clear cost-effectiveness. We evaluated the cost-performance of multiple reported MWCNT-CB TCs systems and found different general trends (positive, negative, and synergistic cost-efficiency relationships). Thus, the cost-effectiveness of these fillers (and their combination) greatly depends on each composite system and what it is intended for. This work includes the first systematic report on cost-performance of MWCNT and CB as conductive fillers.

Topics & Concepts

Carbon nanotubeMaterials scienceCarbon blackComposite materialPercolation thresholdComposite numberSelf-healingFiller (materials)Conductive polymerPolymerTernary operationElectrical conductorElectrical resistivity and conductivityComputer scienceAlternative medicineMedicineProgramming languageNatural rubberPathologyElectrical engineeringEngineeringConducting polymers and applicationsPolymer composites and self-healingPolydiacetylene-based materials and applications