Zhou Z,Li X.Sign-to-speech translation using machine-learning-assisted stretchable sensor arrays.Nat Electron2020;3:571-8

Yin R,Zhao S,Shen G.Wearable sensors-enabled human-machine interaction systems: from design to application.Adv Funct Mater2021;31:2008936

Sugiyama M,Kondo M.An ultraflexible organic differential amplifier for recording electrocardiograms.Nat Electron2019;2:351-60

Wang C,Yu Z.User-interactive electronic skin for instantaneous pressure visualization.Nat Mater2013;12:899-904

Patel S,Zhao M.Wearable electronics for skin wound monitoring and healing.Soft Sci2022;2:9 PMCID:PMC10093663

Wehner M,Fitzgerald DJ.An integrated design and fabrication strategy for entirely soft, autonomous robots.Nature2016;536:451-5

Araromi OA,Dorsey KL.Ultra-sensitive and resilient compliant strain gauges for soft machines.Nature2020;587:219-24

Jin T,Li L.Triboelectric nanogenerator sensors for soft robotics aiming at digital twin applications.Nat Commun2020;11:5381 PMCID:PMC7585441

Zhao H,Shepherd RF.Curvature control of soft orthotics via low cost solid-state optics. In: 2016 IEEE International Conference on Robotics and Automation (ICRA); 2016 May 16-21; Stockholm, Sweden. IEEE; 2016. p. 4008-13.

Wang H,Beccai L.Toward perceptive soft robots: progress and challenges.Adv Sci2018;5:1800541 PMCID:PMC6145216

Yamaguchi T,Arie T,Takei K.Human-like electronic skin-integrated soft robotic hand.Adv Intell Syst2019;1:1900018

Zhang C,Geng D.Laser direct writing and characterizations of flexible piezoresistive sensors with microstructures.Opto-Electron Adv2021;4:200061

Qi K,Wang H.A highly stretchable nanofiber-based electronic skin with pressure-, strain-, and flexion-sensitive properties for health and motion monitoring.ACS Appl Mater Interfaces2017;9:42951-60

Chen L,Yang H.Textile-based capacitive sensor for physical rehabilitation via surface topological modification.ACS Nano2020;14:8191-201

Lee S,Hassani FA.Nanomesh pressure sensor for monitoring finger manipulation without sensory interference.Science2020;370:966-70

Ha KH,Jang H.Highly sensitive capacitive pressure sensors over a wide pressure range enabled by the hybrid responses of a highly porous nanocomposite.Adv Mater2021;33:2170382

Chang C,Wang J,Lin L.Direct-write piezoelectric polymeric nanogenerator with high energy conversion efficiency.Nano Lett2010;10:726-31

Deng W,Jin L.Cowpea-structured PVDF/ZnO nanofibers based flexible self-powered piezoelectric bending motion sensor towards remote control of gestures.Nano Energy2019;55:516-25

Chen J,Han K,Wang ZL.A triboelectric nanogenerator as a self-powered sensor for a soft-rigid hybrid actuator.Adv Mater Technol2019;4:1900337

Wen F,He T.Machine learning glove using self-powered conductive superhydrophobic triboelectric textile for gesture recognition in VR/AR applications.Adv Sci2020;7:2000261 PMCID:PMC7375248

Zheng S,Deng H,Shi X.Chitin derived nitrogen-doped porous carbons with ultrahigh specific surface area and tailored hierarchical porosity for high performance supercapacitors.J Bioresour Bioprod2021;6:142-51

Mahanty B,Maity K,Sarkar S.All-fiber pyro- and piezo-electric nanogenerator for IoT based self-powered health-care monitoring†.Mater Adv2021;2:4370-9

Li X,Li HY.Ultracomfortable hierarchical nanonetwork for highly sensitive pressure sensor.ACS Nano2020;14:9605-12

Pan L,Liu H,Dong Y.Flexible sensor based on hair-like microstructured ionic hydrogel with high sensitivity for pulse wave detection.J Chem Eng2022;450:137929

Veeramuthu L,Venkatesan M.Muscle fibers inspired electrospun nanostructures reinforced conductive fibers for smart wearable optoelectronics and energy generators.Nano Energy2022;101:107592

Yuan Z,Pan C.Flexible sliding sensor for simultaneous monitoring deformation and displacement on a robotic hand/arm.Nano Energy2020;73:104764

Shen Z,Majidi C.Cutaneous ionogel mechanoreceptors for soft machines, physiological sensing, and amputee prostheses.Adv Mater2021;33:2102069

Zhao C,Tang G.Ionic flexible sensors: mechanisms, materials, structures, and applications.Adv Funct Mater2022;32:2110417

Niu H,Gao S.Perception-to-cognition tactile sensing based on artificial-intelligence-motivated human full-skin bionic electronic skin.Adv Mater2022;34:2270225

Tian Z,Wang Y.Ultra-stable strain/ humidity dual-functional flexible wearable sensor based on brush-like AgNPs@CNTs@TPU heterogeneous structure.Colloids Surf A Physicochem Eng Asp2023;670:131398

Mannsfeld SCB,Stoltenberg RM.Highly sensitive flexible pressure sensors with microstructured rubber dielectric layers.Nat Mater2010;9:859-64

Lu P,Zhu P.Iontronic pressure sensor with high sensitivity and linear response over a wide pressure range based on soft micropillared electrodes.Sci Bull2021;66:1091-100

Wan ZF,Gu M.Laser scribed graphene for supercapacitors.Opto-Electron Adv2021;4:200079

Zhang L,Zhang Z.Ultrasensitive skin-like wearable optical sensors based on glass micro/nanofibers.Opto-Electron Adv2020;3:190022

Qiu Z,Zhou W.Ionic skin with biomimetic dielectric layer templated from Calathea Zebrine leaf.Adv Funct Mater2018;28:1802343

Zhang P,Li Y.Flexible and high sensitive capacitive pressure sensor with microstructured electrode inspired by ginkgo leaf.J Phys D Appl Phys2021;54:465401

Lin Q,Yang J.Highly sensitive flexible iontronic pressure sensor for fingertip pulse monitoring.Adv Healthc Mater2020;9:2001023

Li Z,Shen J,Yu J.All-fiber structured electronic skin with high elasticity and breathability.Adv Funct Mater2020;30:1908411

Lin X,Li F,Zhao H.All-nanofibrous ionic capacitive pressure sensor for wearable applications.ACS Appl Mater Interfaces2022;14:31385-95

Cui X,Wu W.Flexible and breathable all-nanofiber iontronic pressure sensors with ultraviolet shielding and antibacterial performances for wearable electronics.Nano Energy2022;95:107022

Guo Y,Li Y,Lee JC.Incorporating wireless strategies to wearable devices enabled by a photocurable hydrogel for monitoring pressure information (Adv. Mater. 29/2023).Adv Mater2023;35:2370208

Tao K,Yu J.Ultra-sensitive, deformable, and transparent triboelectric tactile sensor based on micro-pyramid patterned ionic hydrogel for interactive human-machine interfaces.Adv Sci2022;9:2104168 PMCID:PMC8981453

Chhetry A,Yoon H.Ultrasensitive interfacial capacitive pressure sensor based on a randomly distributed microstructured iontronic film for wearable applications.ACS Appl Mater Interfaces2019;11:3438-49

Luo G,Liu J.Highly conductive, stretchable, durable, breathable electrodes based on electrospun polyurethane mats superficially decorated with carbon nanotubes for multifunctional wearable electronics.J Chem Eng2023;451:138549

Kim J,Shi M.Fracture, fatigue, and friction of polymers in which entanglements greatly outnumber cross-links.Science2021;374:212-6

Brown AEX,Discher DE,Weisel JW.Multiscale mechanics of fibrin polymer: gel stretching with protein unfolding and loss of water.Science2009;325:741-4 PMCID:PMC2846107

Wang X,Lu Z.Healable, recyclable, and mechanically tough polyurethane elastomers with exceptional damage tolerance.Adv Mater2020;32:2005759

Jeong JW,Akhtar A.Materials and optimized designs for human-machine interfaces via epidermal electronics.Adv Mater2013;25:6839-46

Gu XW,Zhang YW.Microstructure versus flaw: mechanisms of failure and strength in nanostructures.Nano Lett2013;13:5703-9

Ruth SRA.Designing tunable capacitive pressure sensors based on material properties and microstructure geometry.ACS Appl Mater Interfaces2020;12:58301-16

Park J,Hong J.Tactile-direction-sensitive and stretchable electronic skins based on human-skin-inspired interlocked microstructures.ACS Nano2014;8:12020-9

Wu YG,Xu JB.Direct writing of liquid metal onto an electrospun graphene oxide composite polymer nanofiber membrane for robust and stretchable electrodes.Adv Mater Technol2023;8:2201935