.714 工程科学学报，第42卷.第6期 [43]Chou HH,Nguyen A,Chortos A,et al.A chameleon-inspired transparent,and conductive polymer.Sci Adv,2017,3(3):art.No. stretchable electronic skin with interactive colour changing e1602076 controlled by tactile sensing.Nature Commun,2015,6:8011 [57]Kim H,Ahn J H.Graphene for flexible and wearable device [44]Cai L,Song L,Luan P S,et al.Super-stretchable,transparent applications.Carbon,2017,120:244 carbon nanotube-based capacitive strain sensors for human motion [58]Wang S H,Xu J,Wang WC.et al.Skin electronics from scalable detection.Sci Rep,2013,3:3048 fabrication of an intrinsically stretchable transistor array.Nature, [45]Jeong J W,Kim M K,Cheng H,et al.Capacitive epidermal 2018,555(7694):83 electronics for electrically safe,long-term electrophysiological [59]Poland C A,Duffin R,Kinloch I,et al.Carbon nanotubes measurements.Ady Healthcare Mater,2014,3(5):642 introduced into the abdominal cavity of mice show asbestos-like [46]Dargahi J,Najarian S.Human tactile perception as a standard for pathogenicity in a pilot study.Nature Nanotechnol,2008,3:423 artificial tactile sensing-a review.Int J Med Rob Comput Assist [60]Pantarotto D,Briand J P,Prato M,et al.Translocation of bioactive Srg,2004,1(1:23 peptides across cell membranes by carbon nanotubes.Chem [47]Sun Q J,Seung W,Kim B J,et al.Active matrix electronic skin Commun,2004(1):16 strain sensor based on piezopotential-powered graphene [61]Boutry C M,Kaizawa Y,Schroeder B C,et al.A stretchable and transistors.Adv Mater,2015,27(22):3411 biodegradable strain and pressure sensor for orthopaedic [48]Yun S,Park S,Park B,et al.Polymer-waveguide-based flexible application.Nature Electron,2018,1:314 tactile sensor array for dynamic response.Ady Mater,2014, [62]Chen G,Matsuhisa N,Liu Z Y,et al.Plasticizing silk protein for 26(26):4474 on-skin stretchable electrodes.Adv Mater,2018,30(21):art.No. [49]Ramuz M,Tee B C K,Tok J B H,et al.Transparent,optical, e1800129 pressure-sensitive artificial skin for large-area stretchable [63]Kim S H,Seo H,Kang J,et al.An ultrastretchable and self- electronics.Adv Mater,2012,24(24):3223 healable nanocomposite conductor enabled by autonomously [50]Wagner S,Bauer S.Materials for stretchable electronics.MRS percolative electrical pathways.ACS Nano,2019,13(6):6531 Bll,2012,37(3):207 [64]Lipomi D J.Chong H,Vosgueritchian M,et al.Toward [51]Yao SS,Zhu Y.Stretchable conductors:nanomaterial-enabled mechanically robust and intrinsically stretchable organic solar stretchable conductors:strategies,materials and devices.Ad cells:evolution of photovoltaic properties with tensile strain.Sol Mater,2015,27(9:1479 Energy Mater Sol Cells,2012,107:355 [52]Yan C Y,Lee P S.Stretchable energy storage and conversion [65]Han S,Kim J,Won S M,et al.Battery-free,wireless sensors for devices..Small,2014,10(17):3443 full-body pressure and temperature mapping.Sci Transl Med, [53]Lipomi D J,Bao Z N.Stretchable and ultraflexible organic 2018,10(435art.No.eaan49s0 electronics.MRS Bull,2017,42(2):93 [66]Kim D H,Lu N S,Ma R,et al.Epidermal electronics.Science, [54]Matsuhisa N,Kaltenbrunner M,Yokota T,et al.Printable elastic 2011,333(6044):838 conductors with a high conductivity for electronic textile [67]Hua QL,Sun J L,Liu H T,et al.Skin-inspired highly stretchable applications.Nature Commun,2015,6:7461 and conformable matrix networks for multifunctional sensing. [55]Tybrandt K,Voros J.Fast and efficient fabrication of intrinsically Nature Commun,2018,9:244 stretchable multilayer circuit boards by wax pattern assisted [68]Molina-Lopez F,Gao T Z,Kraft U,et al.Inkjet-printed stretchable filtration.Small,2016,12(2):180 and low voltage synaptic transistor array.Nature Commun,2019, [56]Wang Y,Zhu C X,Pfattner R,et al.A highly stretchable, 10:2676Chou H H, Nguyen A, Chortos A, et al. A chameleon-inspired stretchable electronic skin with interactive colour changing controlled by tactile sensing. Nature Commun, 2015, 6: 8011 [43] Cai L, Song L, Luan P S, et al. Super-stretchable, transparent carbon nanotube-based capacitive strain sensors for human motion detection. Sci Rep, 2013, 3: 3048 [44] Jeong J W, Kim M K, Cheng H, et al. Capacitive epidermal electronics for electrically safe, long-term electrophysiological measurements. Adv Healthcare Mater, 2014, 3（5）: 642 [45] Dargahi J, Najarian S. Human tactile perception as a standard for artificial tactile sensing—a review. Int J Med Rob Comput Assist Surg, 2004, 1（1）: 23 [46] Sun Q J, Seung W, Kim B J, et al. Active matrix electronic skin strain sensor based on piezopotential-powered graphene transistors. Adv Mater, 2015, 27（22）: 3411 [47] Yun S, Park S, Park B, et al. Polymer-waveguide-based flexible tactile sensor array for dynamic response. Adv Mater, 2014, 26（26）: 4474 [48] Ramuz M, Tee B C K, Tok J B H, et al. Transparent, optical, pressure-sensitive artificial skin for large-area stretchable electronics. Adv Mater, 2012, 24（24）: 3223 [49] Wagner S, Bauer S. Materials for stretchable electronics. MRS Bull, 2012, 37（3）: 207 [50] Yao S S, Zhu Y. Stretchable conductors: nanomaterial-enabled stretchable conductors: strategies, materials and devices. Adv Mater, 2015, 27（9）: 1479 [51] Yan C Y, Lee P S. Stretchable energy storage and conversion devices. Small, 2014, 10（17）: 3443 [52] Lipomi D J, Bao Z N. Stretchable and ultraflexible organic electronics. MRS Bull, 2017, 42（2）: 93 [53] Matsuhisa N, Kaltenbrunner M, Yokota T, et al. Printable elastic conductors with a high conductivity for electronic textile applications. Nature Commun, 2015, 6: 7461 [54] Tybrandt K, Vörös J. Fast and efficient fabrication of intrinsically stretchable multilayer circuit boards by wax pattern assisted filtration. Small, 2016, 12（2）: 180 [55] [56] Wang Y, Zhu C X, Pfattner R, et al. A highly stretchable, transparent, and conductive polymer. Sci Adv, 2017, 3(3): art. No. e1602076 Kim H, Ahn J H. Graphene for flexible and wearable device applications. Carbon, 2017, 120: 244 [57] Wang S H, Xu J, Wang W C, et al. Skin electronics from scalable fabrication of an intrinsically stretchable transistor array. Nature, 2018, 555（7694）: 83 [58] Poland C A, Duffin R, Kinloch I, et al. Carbon nanotubes introduced into the abdominal cavity of mice show asbestos-like pathogenicity in a pilot study. Nature Nanotechnol, 2008, 3: 423 [59] Pantarotto D, Briand J P, Prato M, et al. Translocation of bioactive peptides across cell membranes by carbon nanotubes. Chem Commun, 2004（1）: 16 [60] Boutry C M, Kaizawa Y, Schroeder B C, et al. A stretchable and biodegradable strain and pressure sensor for orthopaedic application. Nature Electron, 2018, 1: 314 [61] Chen G, Matsuhisa N, Liu Z Y, et al. Plasticizing silk protein for on-skin stretchable electrodes. Adv Mater, 2018, 30(21): art. No. e1800129 [62] Kim S H, Seo H, Kang J, et al. An ultrastretchable and self￾healable nanocomposite conductor enabled by autonomously percolative electrical pathways. ACS Nano, 2019, 13（6）: 6531 [63] Lipomi D J, Chong H, Vosgueritchian M, et al. Toward mechanically robust and intrinsically stretchable organic solar cells: evolution of photovoltaic properties with tensile strain. Sol Energy Mater Sol Cells, 2012, 107: 355 [64] Han S, Kim J, Won S M, et al. Battery-free, wireless sensors for full-body pressure and temperature mapping. Sci Transl Med, 2018, 10(435): art. No. eaan4950 [65] Kim D H, Lu N S, Ma R, et al. Epidermal electronics. Science, 2011, 333（6044）: 838 [66] Hua Q L, Sun J L, Liu H T, et al. Skin-inspired highly stretchable and conformable matrix networks for multifunctional sensing. Nature Commun, 2018, 9: 244 [67] Molina-Lopez F, Gao T Z, Kraft U, et al. Inkjet-printed stretchable and low voltage synaptic transistor array. Nature Commun, 2019, 10: 2676 [68] · 714 · 工程科学学报，第 42 卷，第 6 期