Citation: | Farzad Seidi, Wensi Jiang, Zhaochuan Yu, Chao Deng. Cellulose-MXene composites: New platforms with outstanding multifunctional characteristics[J]. Journal of Bioresources and Bioproducts, 2024, 9(3): 243-245. doi: 10.1016/j.jobab.2024.05.002 |
[1] |
Anasori, B., Lukatskaya, M.R., Gogotsi, Y., 2017. 2D metal carbides and nitrides (MXenes) for energy storage. Nat. Rev. Mater. 2, 16098.
|
[2] |
Chen, X., Han, X., Zhang, C., Ou, X., Liu, X., Zhang, J., Liu, W., Ragauskas, A.J., Song, X., Zhang, Z., 2024. Synthesis of red, green, and blue carbon quantum dots and construction of multicolor cellulose-based light-emitting diodes. Small Struct. 1, 2300449.
|
[3] |
Kong, X.Y., Wu, Z.Q., Strømme, M., Xu, C., 2024. Ambient aqueous synthesis of imine-linked covalent organic frameworks (COFs) and fabrication of freestanding cellulose Nanofiber@COF nanopapers. J. Am. Chem. Soc. 146, 742–751.
|
[4] |
Liu, Y.L., Zhang, S.F., Li, L., Li, N., 2024. High-performance cellulose nanofibers/carbon nanotubes composite for constructing multifunctional sensors and wearable electronics. Adv. Fiber Mater, https://doi.org/10.1007/s42765-024-00388-7.
|
[5] |
Naguib, M., Kurtoglu, M., Presser, V., Lu, J., Niu, J.J., Heon, M., Hultman, L., Gogotsi, Y., Barsoum, M.W., 2011. Two-dimensional nanocrystals produced by exfoliation of Ti3AlC2. Adv. Mater. 23, 4248–4253.
|
[6] |
Naguib, M., Mashtalir, O., Carle, J., Presser, V., Lu, J., Hultman, L., Gogotsi, Y., Barsoum, M.W., 2012. Two-dimensional transition metal carbides. ACS Nano 6, 1322–1331.
|
[7] |
Qiao, J., Song, Q.H., Zhang, X., Zhao, S.Y., Liu, J.R., Nyström, G., Zeng, Z.H., 2024. Enhancing interface connectivity for multifunctional magnetic carbon aerogels: an in situ growth strategy of metal-organic frameworks on cellulose nanofibrils. Adv. Sci. 1, 2400403.
|
[8] |
Seidi, F., Arabi Shamsabadi, A., Dadashi Firouzjaei, M., Elliott, M., Saeb, M.R., Huang, Y., Li, C.C., Xiao, H.N., Anasori, B., 2023. MXenes antibacterial properties and applications: a review and perspective. Small 19, e2206716.
|
[9] |
Song, J.Y., Fan, M.S., Zhang, R., Qu, M.J., Tang, P., Wang, H., Bin, Y.Z., 2024. Highly sensitive humidity sensor based on composite film of partially reduced graphene oxide and bacterial cellulose. Biosens. Bioelectron. 257, 116296.
|
[10] |
Thakur, A., Chandran B S, N., Davidson, K., Bedford, A., Fang, H., Im, Y., Kanduri, V., Wyatt, B.C., Nemani, S.K., Poliukhova, V., Kumar, R., Fakhraai, Z., Anasori, B., 2023. Step-by-step guide for synthesis and delamination of Ti3C2Tx MXene. Small Meth. 7, 2300030.
|
[11] |
Yu, Z.C., Deng, C., Ding, C.H., Zhang, X., Liu, Y.Q., Liu, C., Lou, Z.C., Seidi, F., Han, J.Q., Yong, Q., Xiao, H.N., 2024. Organic-inorganic hybrid ZIF-8/MXene/cellulose-based textiles with improved antibacterial and electromagnetic interference shielding performance. Int. J. Biol. Macromol. 266, 131080.
|
[12] |
Yu, Z.C., Deng, C., Sun, J.L., Zhang, X., Liu, Y.Q., Liu, C., Seidi, F., Han, J.Q., Yong, Q., Xiao, H.N., 2024. Cellulosic nonwovens incorporated with fully utilized MXene precursor as smart pressure sensor and multi-protection materials. Adv. Funct. Mater. 1, 2402707.
|