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Polymer Nanocomposite Materials. Группа авторов

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and wide linearity range. Small 14: 1800819.

      147 147 Jian, M., Xia, K., Wang, Q. et al. (2017). Flexible and highly sensitive pressure sensors based on bionic hierarchical structures. Adv. Funct. Mater. 27: 1606066.

      148 148 Pan, L., Chortos, A., Yu, G. et al. (2014). An ultra-sensitive resistive pressure sensor based on hollow-sphere microstructure induced elasticity in conducting polymer film. Nat. Commun. 5: 3002.

      149 149 Park, J., Lee, Y., Hong, J. et al. (2014). Giant tunneling piezoresistance of composite elastomers with interlocked microdome arrays for ultrasensitive and multimodal electronic skins. ACS Nano 8: 4689–4697.

      150 150 Li, Y., Zheng, Y., Zhan, P. et al. (2018). Vapor sensing performance as a diagnosis probe to estimate the distribution of multi-walled carbon nanotubes in poly(lactic acid)/polypropylene conductive composites. Sens. Actuators, B 255: 2809–2819.

      151 151 Dai, K., Zhao, S., Zhai, W. et al. (2013). Tuning of liquid sensing performance of conductive carbon black (CB)/polypropylene (PP) composite utilizing a segregated structure. Composites Part A 55: 11–18.

      152 152 Li, Y., Pionteck, J., Pötschke, P., and Voit, B. (2020). Thermal annealing to influence the vapor sensing behavior of co-continuous poly(lactic acid)/polystyrene/multiwalled carbon nanotube composites. Mater. Des. 187: 108383.

      153 153 Gao, J., Wang, H., Huang, X. et al. (2018). Electrically conductive polymer nanofiber composite with an ultralow percolation threshold for chemical vapour sensing. Compos. Sci. Technol. 161: 135–142.

      154 154 Li, Y., Liu, H., Dai, K. et al. (2015). Tuning of vapor sensing behaviors of eco-friendly conductive polymer composites utilizing ramie fiber. Sens. Actuators, B 221: 1279–1289.

      155 155 Huang, X., Li, B., Wang, L. et al. (2019). Superhydrophilic, underwater superoleophobic, and highly stretchable humidity and chemical vapor sensors for human breath detection. ACS Appl. Mater. Interfaces 11: 24533–24543.

      156 156 Feller, J.F., Lu, J., Zhang, K. et al. (2011). Novel architecture of carbon nanotube decorated poly(methyl methacrylate) microbead vapour sensors assembled by spray layer by layer. J. Mater. Chem. 21: 4142–4149.

      157 157 Zhao, S., Zhai, W., Li, N. et al. (2014). Liquid sensing properties of carbon black/polypropylene composite with a segregated conductive network. Sensor. Actuat. A: Phys 217: 13–20.

      158 158 Liu, X., Guo, Y., Ma, Y. et al. (2014). Flexible, low-voltage and high-performance polymer thin-film transistors and their application in photo/thermal detectors. Adv. Mater. 26: 3631–3636.

      159 159 Cui, X., Chen, J., Zhu, Y., and Jiang, W. (2018). Lightweight and conductive carbon black/chlorinated poly(propylene carbonate) foams with a remarkable negative temperature coefficient effect of resistance for temperature sensor applications. J. Mater. Chem. C 6: 9354–9362.

      160 160 Li, Q., Siddaramaiah, N.H., Kim, G.-H., and Yoo, J.H.L. (2009). Positive temperature coefficient characteristic and structure of graphite nanofibers reinforced high density polyethylene/carbon black nanocomposites. Composites Part B 40: 218–224.

      161 161 Zhang, X., Zheng, X., Ren, D. et al. (2016). Unusual positive temperature coefficient effect of polyolefin/carbon fiber conductive composites. Mater. Lett. 164: 587–590.

      162 162 Lu, C., Hu, X.-n., He, Y.-x. et al. (2012). Triple percolation behavior and positive temperature coefficient effect of conductive polymer composites with especial interface morphology. Polym. Bull. 68: 2071–2087.

      163 163 Xi, Y., Yamanaka, A., Bin, Y., and Matsuo, M. (2007). Electrical properties of segregated ultrahigh molecular weight polyethylene/multiwalled carbon nanotube composites. J. Appl. Polym. Sci. 105: 2868–2876.

      164 164 Asare, E., Basir, A., Tu, W. et al. (2016). Effect of mixed fillers on positive temperature coefficient of conductive polymer composites. Nanocomposites 2: 58–64.

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