Advances in Materials for Soft Stretchable Conductors and Their Behavior under Mechanical Deformation

Soft stretchable sensors rely on polymers that not only withstand large deformations while retaining functionality but also allow for ease of application to couple with the body to capture subtle physiological signals. They have been applied towards motion detection and healthcare monitoring and can be integrated into multifunctional sensing platforms for enhanced human machine interface. Most advances in sensor development, however, have been aimed towards active materials where nearly all approaches rely on a silicone-based substrate for mechanical stability and stretchability. While silicone use has been advantageous in academic settings, conventional silicones cannot offer self-healing capability and can suffer from manufacturing limitations. This review aims to cover recent advances made in polymer materials for soft stretchable conductors. New developments in substrate materials that are compliant and stretchable but also contain self-healing properties and self-adhesive capabilities are desirable for the mechanical improvement of stretchable electronics. We focus on materials for stretchable conductors and explore how mechanical deformation impacts their performance, summarizing active and substrate materials, sensor performance criteria, and applications.

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Aerosol Spray Deposition of Liquid Metal and Elastomer Coatings for Rapid Processing of Stretchable Electronics

Micromachines ◽

10.3390/mi12020146 ◽

2021 ◽

Vol 12 (2) ◽

pp. 146

Author(s):

Taylor Neumann ◽

Berra Kara ◽

Yasaman Sargolzaeiaval ◽

Sooik Im ◽

Jinwoo Ma ◽

...

Keyword(s):

Liquid Metal ◽

Liquid Metals ◽

Spray Deposition ◽

Stretchable Electronics ◽

Conformal Coating ◽

Aerosol Spray ◽

Stretchable Conductors ◽

Merging Process ◽

Pass Through ◽

Stretchable Sensors

We report a spray deposition technique for patterning liquid metal alloys to form stretchable conductors, which can then be encapsulated in silicone elastomers via the same spraying procedure. While spraying has been used previously to deposit many materials, including liquid metals, this work focuses on quantifying the spraying process and combining it with silicones. Spraying generates liquid metal microparticles (~5 μm diameter) that pass through openings in a stencil to produce traces with high resolution (~300 µm resolution using stencils from a craft cutter) on a substrate. The spraying produces sufficient kinetic energy (~14 m/s) to distort the particles on impact, which allows them to merge together. This merging process depends on both particle size and velocity. Particles of similar size do not merge when cast as a film. Likewise, smaller particles (<1 µm) moving at the same speed do not rupture on impact either, though calculations suggest that such particles could rupture at higher velocities. The liquid metal features can be encased by spraying uncured silicone elastomer from a volatile solvent to form a conformal coating that does not disrupt the liquid metal features during spraying. Alternating layers of liquid metal and elastomer may be patterned sequentially to build multilayer devices, such as soft and stretchable sensors.

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Rapid Fabrication of Self‐Healing, Conductive, and Injectable Gel as Dressings for Healing Wounds in Stretchable Parts of the Body

Advanced Functional Materials ◽

10.1002/adfm.202002370 ◽

2020 ◽

Vol 30 (31) ◽

pp. 2002370 ◽

Cited By ~ 6

Author(s):

Sixiang Li ◽

Le Wang ◽

Wenfu Zheng ◽

Guang Yang ◽

Xingyu Jiang

Keyword(s):

The Body ◽

Self Healing ◽

Rapid Fabrication ◽

Healing Wounds

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Rationally Constructed Surface Energy and Dynamic Hard Domains Balance Mechanical Strength and Self-Healing Efficiency of Energetic Linear Polymer Materials

Langmuir ◽

10.1021/acs.langmuir.1c00939 ◽

2021 ◽

Author(s):

Shanjun Ding ◽

Jun Zhang ◽

Guocui Zhu ◽

Xin Ren ◽

Lin Zhou ◽

...

Keyword(s):

Surface Energy ◽

Mechanical Strength ◽

Linear Polymer ◽

Polymer Materials ◽

Self Healing ◽

Healing Efficiency

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Self Healing of Epoxy Composite for Aircraft's Structural Applications

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.136.39 ◽

2008 ◽

Vol 136 ◽

pp. 39-44 ◽

Cited By ~ 2

Author(s):

Willy C.K. Tan ◽

J.C. Kiew ◽

K.Y. Siow ◽

Z.R. Sim ◽

H.S. Poh ◽

...

Keyword(s):

Composite Structures ◽

Polymeric Materials ◽

Hollow Fibre ◽

The Body ◽

Strength Increase ◽

Self Healing ◽

Structural Applications ◽

Self Repair ◽

Repair Systems ◽

Point Bend

When one cut himself, it's amazing to watch how quickly the body acts to mend the wound. Immediately, the body works to pull the skin around the cut back together. The concept of repair by bleeding of enclosed functional agents serves as the biomimetric inspiration of synthetic self repair systems. Such synthetic self repair systems are based on advancement in polymeric materials; the process of human thrombosis is the inspiration for the application of self healing fibres within the composite materials. Preliminary results based on flexural 3 point bend test on prepared samples have shown the healed hollow fibre laminate has a healed strength increase of 47.6% compared to the damaged baseline laminate. These results gave us confidence that there is a great potential to adopt such self healing mechanism on actual composite parts like in aircraft’s composite structures.

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Accelerating Self-Healing Driven by Surface Energy Using Bulky Ester Groups in Polymer Materials

The Journal of Physical Chemistry C ◽

10.1021/acs.jpcc.1c07182 ◽

2021 ◽

Author(s):

Shanjun Ding ◽

Zhu Wang ◽

Guocui Zhu ◽

Ximing Zhang ◽

Jun Zhang ◽

...

Keyword(s):

Surface Energy ◽

Polymer Materials ◽

Self Healing

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Self-healable Functional Polymers based on Diels-Alder ‘Click Chemistry’ Involving Substituted Furan and Triazolinedione Derivatives; A Simple and Very Fast Approach

Polymer Chemistry ◽

10.1039/d1py00910a ◽

2021 ◽

Author(s):

Prantik Mondal ◽

Gourhari Jana ◽

Tuhin Subhra Pal ◽

Pratim K. Chattaraj ◽

Nikhil K Singha

Keyword(s):

Click Chemistry ◽

Materials Science ◽

Functional Polymers ◽

Diels Alder ◽

Polymer Materials ◽

Self Healing ◽

Natural Phenomena ◽

Science And Engineering ◽

Fast Approach ◽

Materials Science And Engineering

Nowadays, the design of functional polymer materials that can mimic natural phenomena, e.g., self-healing of skin cuts, has got a tremendous interest in materials science and engineering. Recently, 1,2,4-triazoline-3,5-dione (TAD)...

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3D Printing of Artificial Skin Patches with Bioactive and Optically Active Polymer Materials for Anti-Infection and Augmenting Wound Repair

Materials Horizons ◽

10.1039/d1mh00508a ◽

2021 ◽

Author(s):

Hao Zhao ◽

Jingwen Xu ◽

Haitao Yuan ◽

Endong Zhang ◽

Nan Dai ◽

...

Keyword(s):

3D Printing ◽

Human Skin ◽

Wound Repair ◽

Optically Active ◽

The Body ◽

Polymer Materials ◽

Artificial Skin ◽

Optically Active Polymer ◽

Cell Affinity

Inspired by the skin biofunction of protecting the body from microorganism invasion, artificially manufacturing human skin in vitro with promising antibacterial capability and cell affinity is urgently required in wound...

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A chemo-mechanically coupled model for capsule-based self-healing polymer materials

International Journal of Damage Mechanics ◽

10.1177/1056789518812979 ◽

2018 ◽

Vol 28 (7) ◽

pp. 1075-1094 ◽

Cited By ~ 2

Author(s):

Fang Tian ◽

Zheng Zhong ◽

Yihui Pan

Keyword(s):

Coupled Model ◽

Polymer Materials ◽

Self Healing

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Irreversible and Self-Healing Electrically Conductive Hydrogels Made of Bio-Based Polymers

International Journal of Molecular Sciences ◽

10.3390/ijms23020842 ◽

2022 ◽

Vol 23 (2) ◽

pp. 842

Author(s):

Ahmed Ali Nada ◽

Anita Eckstein Andicsová ◽

Jaroslav Mosnáček

Keyword(s):

Renewable Resources ◽

Mechanical Stability ◽

Conductive Polymers ◽

Special Focus ◽

Self Healing ◽

Natural Polymers ◽

Electrically Conductive ◽

Preparation Methods ◽

Cross Links ◽

Conductive Hydrogels

Electrically conductive materials that are fabricated based on natural polymers have seen significant interest in numerous applications, especially when advanced properties such as self-healing are introduced. In this article review, the hydrogels that are based on natural polymers containing electrically conductive medium were covered, while both irreversible and reversible cross-links are presented. Among the conductive media, a special focus was put on conductive polymers, such as polyaniline, polypyrrole, polyacetylene, and polythiophenes, which can be potentially synthesized from renewable resources. Preparation methods of the conductive irreversible hydrogels that are based on these conductive polymers were reported observing their electrical conductivity values by Siemens per centimeter (S/cm). Additionally, the self-healing systems that were already applied or applicable in electrically conductive hydrogels that are based on natural polymers were presented and classified based on non-covalent or covalent cross-links. The real-time healing, mechanical stability, and electrically conductive values were highlighted.

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