Advanced Materials, volume 32, issue 23, pages 2001093
Scalable Manufacturing of Free‐Standing, Strong Ti 3 C 2 T x MXene Films with Outstanding Conductivity
ZHANG JIZHEN
1
,
Kong Na
2
,
Uzun Simge
3
,
Levitt Ariana
3
,
Seyedin Shayan
1
,
Lynch Peter A.
1
,
Qin Si
1
,
Han Meikang
3
,
Yang Wen-Rong
2
,
Liu Jingquan
4
,
Wang Xungai
1
,
Gogotsi Yury
3
,
1
Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
|
2
School of Life and Environmental Sciences Deakin University Geelong Victoria 3216 Australia
|
Publication type: Journal Article
Publication date: 2020-04-20
Journal:
Advanced Materials
Quartile SCImago
Q1
Quartile WOS
Q1
Impact factor: 29.4
ISSN: 09359648, 15214095
General Materials Science
Mechanical Engineering
Mechanics of Materials
Abstract
Free-standing films that display high strength and high electrical conductivity are critical for flexible electronics, such as electromagnetic interference (EMI) shielding coatings and current collectors for batteries and supercapacitors. 2D Ti3C2Tx flakes are ideal candidates for making conductive films due to their high strength and metallic conductivity. It is, however, challenging to transfer those outstanding properties of single MXene flakes to macroscale films as a result of the small flake size and relatively poor flake alignment that occurs during solution-based processing. Here, a scalable method is shown for the fabrication of strong and highly conducting pure MXene films containing highly aligned large MXene flakes. These films demonstrate record tensile strength up to ≈570 MPa for a 940 nm thick film and electrical conductivity of ≈15 100 S cm−1 for a 214 nm thick film, which are both the highest values compared to previously reported pure Ti3C2Tx films. These films also exhibit outstanding EMI shielding performance (≈50 dB for a 940 nm thick film) that exceeds other synthetic materials with comparable thickness. MXene films with aligned flakes provide an effective route for producing large-area, high-strength, and high-electrical-conductivity MXene-based films for future electronic applications.
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- We do not take into account publications that without a DOI.
- Statistics recalculated only for publications connected to researchers, organizations and labs registered on the platform.
- Statistics recalculated weekly.
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ZHANG J. et al. Scalable Manufacturing of Free‐Standing, Strong Ti 3 C 2 T x MXene Films with Outstanding Conductivity // Advanced Materials. 2020. Vol. 32. No. 23. p. 2001093.
GOST all authors (up to 50)
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ZHANG J., Kong N., Uzun S., Levitt A., Seyedin S., Lynch P. A., Qin S., Han M., Yang W., Liu J., Wang X., Gogotsi Y., Razal J. M. Scalable Manufacturing of Free‐Standing, Strong Ti 3 C 2 T x MXene Films with Outstanding Conductivity // Advanced Materials. 2020. Vol. 32. No. 23. p. 2001093.
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TY - JOUR
DO - 10.1002/adma.202001093
UR - https://doi.org/10.1002%2Fadma.202001093
TI - Scalable Manufacturing of Free‐Standing, Strong Ti 3 C 2 T x MXene Films with Outstanding Conductivity
T2 - Advanced Materials
AU - Kong, Na
AU - Razal, Joselito M.
AU - ZHANG, JIZHEN
AU - Uzun, Simge
AU - Levitt, Ariana
AU - Seyedin, Shayan
AU - Lynch, Peter A.
AU - Qin, Si
AU - Han, Meikang
AU - Yang, Wen-Rong
AU - Liu, Jingquan
AU - Wang, Xungai
AU - Gogotsi, Yury
PY - 2020
DA - 2020/04/20 00:00:00
PB - Wiley
SP - 2001093
IS - 23
VL - 32
SN - 0935-9648
SN - 1521-4095
ER -
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@article{2020_ZHANG,
author = {Na Kong and Joselito M. Razal and JIZHEN ZHANG and Simge Uzun and Ariana Levitt and Shayan Seyedin and Peter A. Lynch and Si Qin and Meikang Han and Wen-Rong Yang and Jingquan Liu and Xungai Wang and Yury Gogotsi},
title = {Scalable Manufacturing of Free‐Standing, Strong Ti 3 C 2 T x MXene Films with Outstanding Conductivity},
journal = {Advanced Materials},
year = {2020},
volume = {32},
publisher = {Wiley},
month = {apr},
url = {https://doi.org/10.1002%2Fadma.202001093},
number = {23},
pages = {2001093},
doi = {10.1002/adma.202001093}
}
Cite this
MLA
Copy
ZHANG, JIZHEN, et al. “Scalable Manufacturing of Free‐Standing, Strong Ti 3 C 2 T x MXene Films with Outstanding Conductivity.” Advanced Materials, vol. 32, no. 23, Apr. 2020, p. 2001093. https://doi.org/10.1002%2Fadma.202001093.