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Flexible sensors based on hybrid materials

Zhihui Ren1, Dongchen Qi2, Prashant Sonar2 and Zhongming Wei1,

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 Corresponding author: Zhongming Wei, zmwei@semi.ac.cn

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[1]
Shuai C, Zheng L, Di C, et al. Highly flexible strain sensor based on ZnO nanowires and P(VDF-TrFE) fibers for wearable electronic device. Sci China Mater, 2016, 59(3), 173 doi: 10.1007/s40843-016-0128-8
[2]
Shi R, Lou Z, Chen S, et al. Flexible and transparent capacitive pressure sensor with patterned microstructured composite rubber dielectric for wearable touch keyboard application. Sci China Mater, 2018, 61(12), 1587 doi: 10.1007/s40843-018-9267-3
[3]
Shintake J, Piskarev E, Jeong S H, et al. Ultrastretchable strain sensors using carbon black-filled elastomer composites and comparison of capacitive versus resistive sensors. Adv Mater Technol, 2017, 1700284 doi: 10.1002/admt.201700284
[4]
Tien N T, Jeon S, Kim D I, et al. A flexible bimodal sensor array for simultaneous sensing of pressure and temperature. Adv Mater, 2014, 26(5), 796 doi: 10.1002/adma.201302869
[5]
Su P G, Wang C P. Flexible humidity sensor based on TiO2 nanoparticles-polypyrrole-poly-[3-(methacrylamino)propyl] trimethyl ammonium chloride composite materials. Sens Actuators B, 2008, 129(2), 538 doi: 10.1016/j.snb.2007.09.011
[6]
Wang X, Song W, Liu B, et al. High-performance organic–inorganic hybrid photodetectors based on P3HT:CdSe nanowire heterojunctions on rigid and flexible substrates. Adv Funct Mater, 2013, 23(9), 1202 doi: 10.1002/adfm.201201786
[7]
Wang K, Lou Z, Wang L, et al. Bioinspired interlocked structure-induced high deformability for two-dimensional titanium carbide (MXene)/natural microcapsule-based flexible pressure sensors. ACS Nano, 2019, 13(8), 9139 doi: 10.1021/acsnano.9b03454
[8]
Wang L, Jackman J A, Park J H, et al. A flexible, ultra-sensitive chemical sensor with 3D biomimetic templating for diabetes-related acetone detection. J Mater Chem B, 2017, 5(22), 4019 doi: 10.1039/C7TB00787F
[9]
Gu L, Tavakoli M M, Zhang D, et al. 3D arrays of 1024-pixel image sensors based on lead halide perovskite nanowires. Adv Mater, 2016, 28(44), 9713 doi: 10.1002/adma.201601603
[10]
Lee B, Oh J Y, Cho H, et al. Ultraflexible and transparent electroluminescent skin for real-time and super-resolution imaging of pressure distribution. Nat Commun, 2020, 11(1), 663 doi: 10.1038/s41467-020-14485-9
Fig. 1.  (Color online) Schematic illustration of the photonic skin. Reproduced with permission[10] . Copyright 2020, Nature Publishing Group.

[1]
Shuai C, Zheng L, Di C, et al. Highly flexible strain sensor based on ZnO nanowires and P(VDF-TrFE) fibers for wearable electronic device. Sci China Mater, 2016, 59(3), 173 doi: 10.1007/s40843-016-0128-8
[2]
Shi R, Lou Z, Chen S, et al. Flexible and transparent capacitive pressure sensor with patterned microstructured composite rubber dielectric for wearable touch keyboard application. Sci China Mater, 2018, 61(12), 1587 doi: 10.1007/s40843-018-9267-3
[3]
Shintake J, Piskarev E, Jeong S H, et al. Ultrastretchable strain sensors using carbon black-filled elastomer composites and comparison of capacitive versus resistive sensors. Adv Mater Technol, 2017, 1700284 doi: 10.1002/admt.201700284
[4]
Tien N T, Jeon S, Kim D I, et al. A flexible bimodal sensor array for simultaneous sensing of pressure and temperature. Adv Mater, 2014, 26(5), 796 doi: 10.1002/adma.201302869
[5]
Su P G, Wang C P. Flexible humidity sensor based on TiO2 nanoparticles-polypyrrole-poly-[3-(methacrylamino)propyl] trimethyl ammonium chloride composite materials. Sens Actuators B, 2008, 129(2), 538 doi: 10.1016/j.snb.2007.09.011
[6]
Wang X, Song W, Liu B, et al. High-performance organic–inorganic hybrid photodetectors based on P3HT:CdSe nanowire heterojunctions on rigid and flexible substrates. Adv Funct Mater, 2013, 23(9), 1202 doi: 10.1002/adfm.201201786
[7]
Wang K, Lou Z, Wang L, et al. Bioinspired interlocked structure-induced high deformability for two-dimensional titanium carbide (MXene)/natural microcapsule-based flexible pressure sensors. ACS Nano, 2019, 13(8), 9139 doi: 10.1021/acsnano.9b03454
[8]
Wang L, Jackman J A, Park J H, et al. A flexible, ultra-sensitive chemical sensor with 3D biomimetic templating for diabetes-related acetone detection. J Mater Chem B, 2017, 5(22), 4019 doi: 10.1039/C7TB00787F
[9]
Gu L, Tavakoli M M, Zhang D, et al. 3D arrays of 1024-pixel image sensors based on lead halide perovskite nanowires. Adv Mater, 2016, 28(44), 9713 doi: 10.1002/adma.201601603
[10]
Lee B, Oh J Y, Cho H, et al. Ultraflexible and transparent electroluminescent skin for real-time and super-resolution imaging of pressure distribution. Nat Commun, 2020, 11(1), 663 doi: 10.1038/s41467-020-14485-9
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    Received: Revised: Online: Accepted Manuscript: 03 April 2020Uncorrected proof: 09 April 2020Published: 10 April 2020

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      Zhihui Ren, Dongchen Qi, Prashant Sonar, Zhongming Wei. Flexible sensors based on hybrid materials[J]. Journal of Semiconductors, 2020, 41(4): 040402. doi: 10.1088/1674-4926/41/4/040402 Z H Ren, D C Qi, P Sonar, Z M Wei, Flexible sensors based on hybrid materials[J]. J. Semicond., 2020, 41(4): 040402. doi: 10.1088/1674-4926/41/4/040402.Export: BibTex EndNote
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      Zhihui Ren, Dongchen Qi, Prashant Sonar, Zhongming Wei. Flexible sensors based on hybrid materials[J]. Journal of Semiconductors, 2020, 41(4): 040402. doi: 10.1088/1674-4926/41/4/040402

      Z H Ren, D C Qi, P Sonar, Z M Wei, Flexible sensors based on hybrid materials[J]. J. Semicond., 2020, 41(4): 040402. doi: 10.1088/1674-4926/41/4/040402.
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      Flexible sensors based on hybrid materials

      doi: 10.1088/1674-4926/41/4/040402
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