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A transparent, self-healing and high-κ dielectric for low-field-emission stretchable optoelectronics

A transparent, self-healing and high-κ dielectric for low-field-emission stretchable optoelectronics
A transparent, self-healing and high-κ dielectric for low-field-emission stretchable optoelectronics
Stretchable optoelectronic materials are essential for applications in wearable electronics, human–machine interfaces and soft robots. However, intrinsically stretchable optoelectronic devices such as light-emitting capacitors usually require high driving alternating voltages and excitation frequencies to achieve sufficient luminance in ambient lighting conditions. Here, we present a healable, low-field illuminating optoelectronic stretchable (HELIOS) device by introducing a transparent, high permittivity polymeric dielectric material. The HELIOS device turns on at an alternating voltage of 23 V and a frequency below 1 kHz, safe operating conditions for human–machine interactions. We achieved a brightness of 1,460 cd m−2 at 2.5 V µm−1 with stable illumination demonstrated up to a maximum of 800% strain. The materials also self-healed mechanically and electronically from punctures or when severed. We further demonstrate various HELIOS light-emitting capacitor devices in environment sensing using optical feedback. Moreover, our devices can be powered wirelessly, potentially enabling applications for untethered damage-resilient soft robots.
1476-1122
182-188
Tan, Yu Jun
b78765ff-9433-44cb-9e6f-3ace066c5201
Godaba, Hareesh
787c1482-6a29-43ad-b49e-a6a2b7175f0c
Chen, Ge
73923f69-4ca9-414f-80fc-6ec2e15a49ae
Tan, Siew Ting Melissa
ac445d6d-1bcc-4160-b1e9-2b087504d61c
Wan, Guanxiang
b65e7e3f-927f-4fbb-8021-a2ecf174821e
Li, Guojingxian
210b4c61-94d3-47e6-926f-6475c312c515
Lee, Pui Mun
74e1bc10-772d-42d2-8e00-98bc6b76ecda
Cai, Yongqing
bb4c1a13-75b0-4e5e-bb2f-5d0d27ea3490
Shepherd, Robert F
d55f4c6a-0931-445a-baec-ab5e82559c7f
Li, Si
7186644c-cbba-4366-8e02-1bb238808111
Ho, John S.
09ed869c-52b0-4640-8b56-3c2181445dcc
Tee, Benjamin C.K.
0bc0f514-3167-4f07-90a9-11b6e4411dd2
Tan, Yu Jun
b78765ff-9433-44cb-9e6f-3ace066c5201
Godaba, Hareesh
787c1482-6a29-43ad-b49e-a6a2b7175f0c
Chen, Ge
73923f69-4ca9-414f-80fc-6ec2e15a49ae
Tan, Siew Ting Melissa
ac445d6d-1bcc-4160-b1e9-2b087504d61c
Wan, Guanxiang
b65e7e3f-927f-4fbb-8021-a2ecf174821e
Li, Guojingxian
210b4c61-94d3-47e6-926f-6475c312c515
Lee, Pui Mun
74e1bc10-772d-42d2-8e00-98bc6b76ecda
Cai, Yongqing
bb4c1a13-75b0-4e5e-bb2f-5d0d27ea3490
Shepherd, Robert F
d55f4c6a-0931-445a-baec-ab5e82559c7f
Li, Si
7186644c-cbba-4366-8e02-1bb238808111
Ho, John S.
09ed869c-52b0-4640-8b56-3c2181445dcc
Tee, Benjamin C.K.
0bc0f514-3167-4f07-90a9-11b6e4411dd2

Tan, Yu Jun, Godaba, Hareesh, Chen, Ge, Tan, Siew Ting Melissa, Wan, Guanxiang, Li, Guojingxian, Lee, Pui Mun, Cai, Yongqing, Shepherd, Robert F, Li, Si, Ho, John S. and Tee, Benjamin C.K. (2020) A transparent, self-healing and high-κ dielectric for low-field-emission stretchable optoelectronics. Nature Materials, 19, 182-188. (doi:10.1038/s41563-019-0548-4).

Record type: Article

Abstract

Stretchable optoelectronic materials are essential for applications in wearable electronics, human–machine interfaces and soft robots. However, intrinsically stretchable optoelectronic devices such as light-emitting capacitors usually require high driving alternating voltages and excitation frequencies to achieve sufficient luminance in ambient lighting conditions. Here, we present a healable, low-field illuminating optoelectronic stretchable (HELIOS) device by introducing a transparent, high permittivity polymeric dielectric material. The HELIOS device turns on at an alternating voltage of 23 V and a frequency below 1 kHz, safe operating conditions for human–machine interactions. We achieved a brightness of 1,460 cd m−2 at 2.5 V µm−1 with stable illumination demonstrated up to a maximum of 800% strain. The materials also self-healed mechanically and electronically from punctures or when severed. We further demonstrate various HELIOS light-emitting capacitor devices in environment sensing using optical feedback. Moreover, our devices can be powered wirelessly, potentially enabling applications for untethered damage-resilient soft robots.

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More information

Accepted/In Press date: 30 October 2019
e-pub ahead of print date: 16 December 2019
Published date: February 2020

Identifiers

Local EPrints ID: 498900
URI: http://eprints.soton.ac.uk/id/eprint/498900
DOI: doi:10.1038/s41563-019-0548-4
ISSN: 1476-1122
PURE UUID: 398e38aa-767d-4f22-877a-6eccaeade478
ORCID for Hareesh Godaba: ORCID iD orcid.org/0000-0001-6600-8513

Catalogue record

Date deposited: 04 Mar 2025 17:53
Last modified: 05 Mar 2025 03:18

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Contributors

Author: Yu Jun Tan
Author: Hareesh Godaba ORCID iD
Author: Ge Chen
Author: Siew Ting Melissa Tan
Author: Guanxiang Wan
Author: Guojingxian Li
Author: Pui Mun Lee
Author: Yongqing Cai
Author: Robert F Shepherd
Author: Si Li
Author: John S. Ho
Author: Benjamin C.K. Tee

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