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The tough and multi‐functional stretchable device based on silicone rubber composites

Vineet Kumar, Md Najib Alam, Siraj Azam, Amutheesan Manikkavel, Sang‐Shin Park

2023Polymers for Advanced Technologies12 citationsDOI

Abstract

Abstract Recently, the advances in stretchable electronic devices have attracted great attention around the world. New technologies are constantly updated to obtain a stretchable device with high performance and robust durability. The stretchable device‐based rubber composites were prepared with the addition of room‐temperature‐vulcanized silicone rubber (RTV‐SR) and different types of nanofillers such as graphite nanoplatelets (GNP), molybdenum disulfide (MoS 2 ), and their hybrid. The hybrid composites contain both nanofillers in 50:50 ratios. The mechanical performance of the stretchable device was studied and presented. For example, the compressive modulus was 1.86 MPa (virgin), and at 20 per hundred parts of rubber (phr) was 3.9 MPa (GNP), 2.3 MPa (MoS 2 ), and 2.72 MPa (Hybrid). The mechanical stretching ability of the composites was 120% (virgin), and at 20 phr was 170% (GNP), 182% (MoS 2 ), and 171% for (Hybrid). At end of the work, a novel stretchable device based on a piezo‐electric effect is presented which provides an output voltage of ~1.2 V and high durability of >0.1 million cycles without significant degradation. This device is based on a rubber composite with the inclusion of electro‐active and dielectric materials as described in the subsequent section of the paper.

Topics & Concepts

Materials scienceComposite materialSilicone rubberVulcanizationNatural rubberComposite numberDurabilityModulusDielectricOptoelectronicsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsElectromagnetic wave absorption materials
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