3. T. Someya, M. Amagai, Toward a new generation of smart skins, Nature Biotechnology, 37
(2019) 382–388.
4. C. Anichini, W. Czepa, D. Pakulski, A. Aliprandi, A. Ciesielski, P. Samorì, Chemical sensing
with 2D materials, Chemical Society Reviews, 47 (2018) 4860–4908.
5. Q. Tao, M. Dahlqvist, J. Lu, S. Kota, R. Meshkian, J. Halim, J. Palisaitis, L. Hultman, M.W.
Barsoum, P.O.Å. Persson, J. Rosen, Two-dimensional Mo1.33C MXene with divacancy or
dering prepared from parent 3D laminate with in-plane chemical ordering, Nature
Communications, 8 (2017) 14949.
6. M. Zhu, Y. Huang, Q. Deng, J. Zhou, Z. Pei, Q. Xue, Y. Huang, Z. Wang, H. Li, Q. Huang,
C. Zhi, Highly flexible, freestanding supercapacitor electrode with enhanced performance
obtained by hybridizing polypyrrole chains with MXene, Advanced Energy Materials, 6 (2016)
1600969.
7. M. Ghidiu, M.R. Lukatskaya, M.Q. Zhao, Y. Gogotsi, M.W. Barsoum, Conductive two-
dimensional titanium carbide ’clay’ with high volumetric capacitance, Nature, 516 (2014) 78–81.
8. C. Xu, L. Wang, Z. Liu, L. Chen, J. Guo, N. Kang, X.L. Ma, H.M. Cheng, W. Ren, Large-area
high-quality 2D ultrathin Mo2C superconducting crystals, Nat Mater, 14 (2015) 1135–1141.
9. T. Li, L. Yao, Q. Liu, J. Gu, R.-C. Luo, J. Li, Y. Xudong, W. Wang, P. Liu, B. Chen, W. Zhang,
W. Abbas, R. Naz, D. Zhang, Fluorine-free synthesis of high purity Ti3C2Tx (T = -OH, -O) via
alkali treatment, Angewandte Chemie, 130 (2018).
10. T. Li, L. Yao, Fluorine-free synthesis of high-purity Ti(3) C(2) T(x) (T = OH, O) via alkali
treatment, Angewandte Chemie International Edition, 57 (2018) 6115–6119.
11. W. Sun, S.A. Shah, Y. Chen, Z. Tan, H. Gao, T. Habib, M. Radovic, M.J. Green, Electrochemical
etching of Ti2AlC to Ti2CTx (MXene) in low-concentration hydrochloric acid solution, Journal
of Materials Chemistry A, 5 (2017) 21663–21668.
12. J. Peng, X. Chen, W.-J. Ong, X. Zhao, N. Li, Surface and heterointerface engineering of 2D
MXenes and their nanocomposites: Insights into electro- and photocatalysis, Chem, 5 (2019)
18–50.
13. L. Qin, Q. Tao, A. El Ghazaly, J. Fernandez-Rodriguez, P.O.Å. Persson, J. Rosen, F. Zhang,
High-performance ultrathin flexible solid-state supercapacitors based on solution proces
sable Mo1.33C MXene and PEDOT:PSS, Advanced Functional Materials, 28 (2018) 1703808.
14. L. Wang, L. Chen, P. Song, C. Liang, Y. Lu, H. Qiu, Y. Zhang, J. Kong, J. Gu, Fabrication on
the annealed Ti3C2Tx MXene/epoxy nanocomposites for electromagnetic interference
shielding application, Composites Part B: Engineering, 171 (2019) 111–118.
15. L. Qin, Q. Tao, X. Liu, M. Fahlman, J. Halim, P.O.Å. Persson, J. Rosen, F. Zhang, Polymer-
MXene composite films formed by MXene-facilitated electrochemical polymerization for
flexible solid-state microsupercapacitors, Nano Energy, 60 (2019) 734–742.
16. H. Wang, L. Li, C. Zhu, S. Lin, J. Wen, Q. Jin, X. Zhang, In situ polymerized Ti3C2Tx/PDA
electrode with superior areal capacitance for supercapacitors, Journal of Alloys and Compounds,
778 (2019) 858–865.
17. Y. Tong, M. He, Y. Zhou, X. Zhong, L. Fan, T. Huang, Q. Liao, Y. Wang, Hybridizing
polypyrrole chains with laminated and two-dimensional Ti3C2Tx toward high-performance
electromagnetic wave absorption, Applied Surface Science, 434 (2018) 283–293.
18. M. Naguib, M. Kurtoglu, V. Presser, J. Lu, J. Niu, M. Heon, L. Hultman, Y. Gogotsi, M.W.
Barsoum, Two-dimensional nanocrystals produced by exfoliation of Ti3AlC2, Advanced
Materials, 23 (2011) 4248–4253.
19. M.W. Barsoum, The MN+1AXN phases: A new class of solids: Thermodynamically stable
nanolaminates, Progress in Solid State Chemistry, 28 (2000) 201–281.
20. J. Halim, J. Palisaitis, J. Lu, J. Thörnberg, E.J. Moon, M. Precner, P. Eklund, P.O.Å. Persson,
M.W. Barsoum, J. Rosen, Synthesis of two-dimensional Nb1.33C (MXene) with randomly
distributed vacancies by etching of the quaternary solid solution (Nb2/3Sc1/3)2AlC MAX
Phase, ACS Applied Nano Materials, 1 (2018) 2455–2460.
21. R.M. Ronchi, J.T. Arantes, S.F. Santos, Synthesis, structure, properties and applications of
MXenes: Current status and perspectives, Ceramics International, 45 (2019) 18167–18188.
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