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Materials
Volume 13
Issue 18
10.3390/ma13183947
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Review
Peer-Review Record

A Review of Conductive Hydrogel Used in Flexible Strain Sensor

Materials 2020, 13(18), 3947; https://doi.org/10.3390/ma13183947
by Li Tang 1, Shaoji Wu 1, Jie Qu 1, Liang Gong 1,2,* and Jianxin Tang 1,*
Reviewer 1: Anonymous
Reviewer 2: Anonymous
Reviewer 3:
Gargi Joshi
Materials 2020, 13(18), 3947; https://doi.org/10.3390/ma13183947
Submission received: 12 August 2020 / Revised: 30 August 2020 / Accepted: 2 September 2020 / Published: 7 September 2020

Round 1

Reviewer 1 Report

As attached

Comments for author File: Comments.pdf

Author Response

Please see the attachment

Author Response File: Author Response.docx

Reviewer 2 Report

In the manuscript entitled "A Review of Conductive Hydrogel Used in Flexible Strain Sensor", the authors introduce the synthesis methods of conductive hydrogels and their physical and chemical properties. Also, challenges and future perspectives of the conductive hydrogel-based flexible strain sensor were well discussed.

However, the applications of the flexible strain sensor are also very important. This manuscript reviewed the synthesis methods of conductive hydrogels, but there is no discussion about the application. The authors should add one more figure about the application fields (health monitoring, robot control, or human-machine interface) of the flexible strain sensor using conductive hydrogel and discuss the limits and advantages, it would be helpful to the reader to understand the importance of conductive hydrogel for flexible strain sensor.

Author Response

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Author Response File: Author Response.docx

Reviewer 3 Report

There has been a recent surge in research on hydrogel-based sensing devices as soft robotics. This review is very timely as their is great interest in flexible sensors. It is also well-organized and written reasonably.

I have three suggestions,

  1. 3D printing of hydrogels to generate complex patterns is highly sought after for preparing wearable devices. The authors should incorporate a few lines about the process.
  2. It is worth stressing the ability of the sensor to repeatedly detect the change in electrical signals under strain (stretching-releasing hysteresis) without significant damage (in the introduction).
  3. In section '3.1 Carbon-based nanomaterials' the authors have highlighted better performance of CNTs and discussed an example of MWCNT crosslinked chitosan hydrogel. There are examples of single-walled CNTs (SWCNTs) in the literature. A brief comparison between the two would be really helpful.

Author Response

Please see the attachment

Author Response File: Author Response.docx

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