registered   |   log in
  中文

mxene academic

 
contact us

hotline:

17715390137

Tel/Wechat:

  18101240246 (Technology)

0512-68565571

Emailmxenes@163.com (Sales Engineer)bkxc.bonnie@gmail.com

Scan the code to follow or search the official account on WeChat: 

2D Materials Fronrier After paying attention, 

click on the lower right corner to contact us, 

Enter enterprise WeChat.

Professional Services Online

mxene academic
position: home > mxene academic > mxene other fields

ACS Nano: Super-elastic MXene-based hybrid aerogel for compression elastic devices

source:beike new material Views:4166time:2021-03-02 QQ Academic Group: 1092348845

Superelastic aerogels have excellent electrical conductivity, reversible compressibility and high durability, and have huge application potential in various emerging applications ranging from wearable electronic devices to multifunctional stents.



Recently, Joselito M. Razal of Deakin University in Australia reported that MXene and GO flakes were mixed, followed by multi-stage reduction of GO, freezing casting, and finally annealing treatment to prepare MXene/rGO superelastic aerogel. By optimizing the composition and reduction conditions, the reversible compressive strain of the synthesized aerogel is 95%, which exceeds all the values reported so far.







The main points of the article

1) The conductive MXene/rGO network has fast electron transfer and stable structural integrity under compression/release cycles.



2) After assembling it into a compressible supercapacitor, the capacity retention rate after 1000 compression/release cycles is 97.2%. In addition, the high conductivity and porous structure also make MXene/rGO-based piezoresistive sensors with high sensitivity (0.28 kPa−1), wide detection range (up to 66.98 kPa) and ultra-low detection limit (~60 Pa).







This super-elastic MXene/rGO aerogel is expected to further promote the wide application of Mxene-based materials in wearable electronic devices, electromagnetic interference shielding and flexible energy storage devices.

 

references

Degang Jiang, et al, Superelastic Ti3C2Tx MXene-Based Hybrid Aerogels for Compression Resilient Devices, ACS Nano, 2021

DOI: 10.1021/acsnano.0c09959

https://dx.doi.org/10.1021/acsnano.0c09959


 

Reminder: Beijing Beike New Material Technology Co., Ltd. supplies products only for scientific research, not for humans
All rights reserved © 2019 beijing beike new material Technology Co., Ltd 京ICP备16054715-2号
advisory
phone
Email:mxenes@163.com
Tel:+86-17715390137
scan

scan
WeChat