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Stretchable electronic skin based on paper-cut structure, and preparation method and application thereof

An electronic skin, square-shaped technology, applied in applications, medical science, sensors, etc., can solve the problems of skin elastic modulus mismatch, non-recyclable, non-stretchable electronic skin, etc., to save resources and protect the environment Effect

Pending Publication Date: 2021-06-29
ZHENGZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the traditional liquid metal bilayer electronic skin is not stretchable and does not match the elastic modulus of the skin.
The traditional double-layer film electronic skin is not combined with the skin sensing function, and cannot perceive human physiological signals well
In addition, the traditional double-layer electronic skin cannot be recycled and reused, so it is very important to prepare a double-layer electronic skin that is stretchable, recyclable and can sense human physiological signals.

Method used

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  • Stretchable electronic skin based on paper-cut structure, and preparation method and application thereof
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  • Stretchable electronic skin based on paper-cut structure, and preparation method and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Such as Figure 1-2 As shown, the present invention discloses a stretchable electronic skin based on a kirigami structure. The electronic skin 1 of the kirigami structure is arranged with cutting slits 2 on the electronic skin 1. The electronic skin 1 of the kirigami structure is a uniaxial kirigami structure, and the uniaxial The electronic skin 1 with a paper-cut structure is arranged vertically and periodically on the electronic skin 1 by cutting slits 2 .

[0032] The electronic skin 1 is composed of upper and lower films, the upper film of the electronic skin 1 is cellulose nanofiber / polyvinyl alcohol, and the lower film of the electronic skin 1 is liquid metal / cellulose nanofiber. The doping ratio of cellulose nanofibers, polyvinyl alcohol, and liquid metal in electronic skin 1 is 0.02 g: 6 mL: 1.2 g.

[0033] A method for preparing a stretchable electronic skin 1 based on a kirigami structure, wherein the electronic skin 1 is prepared into an electronic skin 1 b...

Embodiment 2

[0041] Such as image 3 As shown, the present invention discloses a stretchable electronic skin 1 based on a kirigami structure. The electronic skin 1 of the kirigami structure is arranged with cutting slits 2 on the electronic skin 1. The electronic skin 1 of the kirigami structure is a biaxial kirigami structure. The electronic skin 1 with a shaft kirigami structure is periodically arranged on the electronic skin 1 with the cutting slits 2 in a grid shape.

[0042] The electronic skin 1 is composed of upper and lower films, the upper film of the electronic skin 1 is cellulose nanofiber / polyvinyl alcohol, and the lower film of the electronic skin 1 is liquid metal / cellulose nanofiber. The doping ratio of cellulose nanofibers, polyvinyl alcohol, and liquid metal in electronic skin 1 is 0.02 g: 6 mL: 1.2 g.

[0043] A method for preparing a stretchable electronic skin 1 based on a kirigami structure, wherein the electronic skin 1 is prepared into an electronic skin 1 based on ...

Embodiment 3

[0051] Such as Figure 4 As shown, the present invention discloses a stretchable electronic skin 1 based on a kirigami structure. The electronic skin 1 of the kirigami structure is arranged with cutting slits 2 on the electronic skin 1. The electronic skin 1 of the kirigami structure is a square spiral kirigami structure. The electronic structure of the square spiral kirigami structure is that the cutting slits 2 are periodically arranged in an "L" shape on the electronic skin 1 .

[0052] The electronic skin 1 is composed of upper and lower films, the upper film of the electronic skin 1 is cellulose nanofiber / polyvinyl alcohol, and the lower film of the electronic skin 1 is liquid metal / cellulose nanofiber. The doping ratio of cellulose nanofibers, polyvinyl alcohol, and liquid metal in electronic skin 1 is 0.02 g: 6 mL: 1.2 g.

[0053] A method for preparing a stretchable electronic skin 1 based on a kirigami structure, wherein the electronic skin 1 is prepared into an elec...

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Abstract

The invention discloses stretchable electronic skin based on a paper-cut structure. According to the electronic skin of the paper-cut structure, cutting gaps are formed in the electronic skin. The electronic skin with the paper-cut structure is of a single-shaft paper-cut structure, a double-shaft paper-cut structure or a square spiral paper-cut structure. The electronic skin of the single-axis paper-cut structure is that cutting gaps are longitudinally and periodically arranged on the electronic skin; the electronic skin of the double-shaft paper-cut structure is that cutting gaps are periodically arranged on the electronic skin in a latticed mode; and the electronic structure of the square spiral paper-cut structure is that cutting gaps are periodically arranged on the electronic skin in an L shape. According to the stretchable electronic skin based on the paper-cut structure provided by the invention, the electronic skin of the paper-cut structure has good stretchability; and therefore the electronic skin can be better attached to the skin. The invention also provides a simple and convenient preparation method of the electronic skin, and also provides application and a method for monitoring human physiological signals by the electronic skin.

Description

technical field [0001] The invention belongs to the technical field of electronic skin, and in particular relates to a stretchable electronic skin based on a paper-cut structure and a preparation method and application thereof. Background technique [0002] Liquid metal-based bilayer electronic skin with asymmetric structure and electrical properties on both sides plays an important role in microscale sensors / actuators, energy storage / generation devices, and thermal management. The bilayer film electronic skin provides convenience to solve the challenges involving electronic circuits and energy management, effectively prevents internal short circuits of circuits, and realizes complex functions in a limited space. However, the traditional liquid metal bilayer electronic skin is not stretchable and does not match the elastic modulus of the skin. The traditional double-film electronic skin is not combined with the skin sensing function, and cannot sense human physiological sig...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/318A61B5/369A61B5/389A61B5/00
CPCA61B5/6801
Inventor 毛彦超李星周文敏黄维李潮悦刘冬娟冷自伟潘志峰
Owner ZHENGZHOU UNIV
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