Bioinspired nanomaterials for wearable sensing and human-machine interfacing
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[1] Jun Chen,et al. Smart textiles for self-powered biomonitoring , 2023, Med-X.
[2] Jun Chen,et al. A textile magnetoelastic patch for self-powered personalized muscle physiotherapy , 2023, Matter.
[3] Jun Chen,et al. Learning Hand Kinematics for Parkinson's Disease Assessment Using a Multimodal Sensor Glove , 2023, Advanced science.
[4] Jun Chen,et al. Robust hydrogel sensors for unsupervised learning enabled sign‐to‐verbal translation , 2023, InfoMat.
[5] J. S. Ho,et al. Technology Roadmap for Flexible Sensors. , 2023, ACS nano.
[6] Jun Chen,et al. Advances in Wearable Strain Sensors Based on Electrospun Fibers , 2023, Advanced Functional Materials.
[7] Zhuhao Wu,et al. Acoustic metamaterials-driven transdermal drug delivery for rapid and on-demand management of acute disease , 2023, Nature Communications.
[8] Jun Chen,et al. Spherical Magnetoelastic Generator for Multidirectional Vibration Energy Harvesting. , 2023, ACS nano.
[9] Jun Chen,et al. Implantable Triboelectric Nanogenerators for Self-Powered Cardiovascular Healthcare. , 2023, Small.
[10] Jun Chen,et al. Boost the Voltage of A Magnetoelastic Generator Via Tuning the Magnetic Induction Layer Resistance , 2023, Nano Energy.
[11] Zhong Lin Wang,et al. Advances in Triboelectric Nanogenerators for Self‐powered Neuromodulation , 2023, Advanced Functional Materials.
[12] Kun Rui,et al. Piezoresistive Pressure Sensor Based on a Conductive 3D Sponge Network for Motion Sensing and Human-Machine Interface. , 2023, ACS applied materials & interfaces.
[13] Sheng Xu,et al. A wearable cardiac ultrasound imager , 2023, Nature.
[14] Zhengbao Yang,et al. Self-charging electrostatic face masks leveraging triboelectrification for prolonged air filtration , 2022, Nature communications.
[15] C. Q. Lee,et al. Improving Relative Permittivity and Suppressing Dielectric Loss of Triboelectric Layers for High-Performance Wearable Electricity Generation. , 2022, ACS nano.
[16] Jun Chen,et al. Self‐Powered Programming of Fibroblasts into Neurons via a Scalable Magnetoelastic Generator Array , 2022, Advanced materials.
[17] Weiqing Yang,et al. Body-area sensor network featuring micropyramids for sports healthcare , 2022, Nano Research.
[18] Zimo Wang,et al. Airline Point-of-Care System on Seat Belt for Hybrid Physiological Signal Monitoring , 2022, Micromachines.
[19] Weiqing Yang,et al. Suppressing Piezoelectric Screening Effect at Atomic Scale for Enhanced Piezoelectricity , 2022, SSRN Electronic Journal.
[20] Jun Chen,et al. Porous Pyroelectric Ceramic with Carbon Nanotubes for High-Performance Thermal to Electrical Energy Conversion , 2022, SSRN Electronic Journal.
[21] Jun Chen,et al. Harvesting Hydropower via a Magnetoelastic Generator for Sustainable Water Splitting. , 2022, ACS nano.
[22] Jun Chen,et al. Advances in Bioinspired Triboelectric Nanogenerators , 2022, Advanced Electronic Materials.
[23] Jun Chen,et al. Advances in Photoplethysmography for Personalized Cardiovascular Monitoring , 2022, Biosensors.
[24] Weiqing Yang,et al. Topological Nanofibers Enhanced Piezoelectric Membranes for Soft Bioelectronics (Adv. Funct. Mater. 49/2022) , 2022, Advanced Functional Materials.
[25] Jun Chen,et al. Self‐Powered Smart Gloves Based on Triboelectric Nanogenerators , 2022, Small methods.
[26] Jun Chen,et al. A programmable magnetoelastic sensor array for self-powered human–machine interface , 2022, Applied Physics Reviews.
[27] Yuanjie Su,et al. High-performance piezoelectric composites via β phase programming , 2022, Nature Communications.
[28] Zhaoping Li,et al. A wearable electrochemical biosensor for the monitoring of metabolites and nutrients , 2022, Nature Biomedical Engineering.
[29] Yannan Xie,et al. Fluid Field Modulation in Mass Transfer for Efficient Photocatalysis , 2022, Advanced science.
[30] Jun Chen,et al. A Soft Magnetoelastic Generator for Wind‐Energy Harvesting , 2022, Advanced materials.
[31] Jun Chen,et al. Kirigami‐Inspired Pressure Sensors for Wearable Dynamic Cardiovascular Monitoring , 2022, Advanced materials.
[32] Hulin Zhang,et al. Deep Learning Assisted Body Area Triboelectric Hydrogel Sensor Network for Infant Care , 2022, Advanced Functional Materials.
[33] Wei Gao,et al. All-printed soft human-machine interface for robotic physicochemical sensing , 2022, Sci. Robotics.
[34] Jun Chen,et al. Bioinspired Anisotropic Slippery Cilia for Stiffness-Controllable Bubble Transport. , 2022, ACS nano.
[35] Jun Chen,et al. Bioinspired acoustic textiles with nanoscale vibrations for wearable biomonitoring , 2022, Matter.
[36] Xiaoquan Lu,et al. Flexible Prussian Blue‐Au Fibers as Robust Peroxidase‐Like Nanozymes for Wearable Hydrogen Peroxide and Uric Acid Monitoring , 2022, Electroanalysis.
[37] Jun Chen,et al. Giant Magnetoelastic Effect Enabled Stretchable Sensor for Self-Powered Biomonitoring. , 2022, ACS nano.
[38] Zhou Li,et al. Bioinspired sensor system for health care and human‐machine interaction , 2022, EcoMat.
[39] Jun Chen,et al. Self-Powered Environmental Monitoring Via a Triboelectric Nanogenerator , 2022, Nano Energy.
[40] Yuxiang Shen,et al. P( LLA‐co‐PDO ) copolymers with random and block architectures: Synthesis and characterizations , 2022, Journal of Applied Polymer Science.
[41] Jun Chen,et al. Machine-Learning-Assisted Recognition on Bioinspired Soft Sensor Arrays. , 2022, ACS nano.
[42] Yongjiu Zou,et al. A Deep‐Learning‐Assisted On‐Mask Sensor Network for Adaptive Respiratory Monitoring , 2022, Advanced materials.
[43] Yihao Zhou,et al. Smart textiles for personalized health care , 2024, Soft Mechatronics and Wearable Systems.
[44] X. Duan,et al. Highly stretchable van der Waals thin films for adaptable and breathable electronic membranes , 2022, Science.
[45] Yuanjie Su,et al. Simultaneous Biomechanical and Biochemical Monitoring for Self-Powered Breath Analysis. , 2022, ACS applied materials & interfaces.
[46] Jun Chen,et al. Wearable Pressure Sensors for Pulse Wave Monitoring , 2022, Advanced materials.
[47] Xiaoquan Lu,et al. Recent Advances on Dual‐Band Electrochromic Materials and Devices , 2022, Advanced Functional Materials.
[48] Jun Chen,et al. Electronic Textiles for Wearable Point-of-Care Systems. , 2021, Chemical reviews.
[49] Jun Chen,et al. Machine-Learning-Aided Self-Powered Assistive Physical Therapy Devices. , 2021, ACS nano.
[50] Y. Gong,et al. An ultrathin rechargeable solid-state zinc ion fiber battery for electronic textiles , 2021, Science advances.
[51] Jun Chen,et al. Moisture Assisted Photo-Engineered Textiles for Visible and Self-Adaptive Infrared Dual Camouflage , 2021, SSRN Electronic Journal.
[52] Yuanjie Su,et al. MXene-Sponge Based High-Performance Piezoresistive Sensor for Wearable Biomonitoring and Real-Time Tactile Sensing. , 2021, Small methods.
[53] Jun Chen,et al. Wearable Ultrahigh Current Power Source Based on Giant Magnetoelastic Effect in Soft Elastomer System. , 2021, ACS nano.
[54] Jun Chen,et al. A Personalized Acoustic Interface for Wearable Human–Machine Interaction , 2021, Advanced Functional Materials.
[55] Jun Chen,et al. Soft fibers with magnetoelasticity for wearable electronics , 2021, Nature Communications.
[56] Jun Chen,et al. Bioinspired Nanocomposites with Self‐Adaptive Stress Dispersion for Super‐Foldable Electrodes , 2021, Advanced science.
[57] H. Fu,et al. Triboelectric bending sensor based smart glove towards intuitive multi-dimensional human-machine interfaces , 2021 .
[58] Y. Tai,et al. 3-Dimensional Electrical Impedance Spectroscopy for in situ Endoluminal Mapping of Metabolically Active Plaques , 2021, Sensors and Actuators B: Chemical.
[59] Yuanjie Su,et al. Piezoelectric fiber composites with polydopamine interfacial layer for self-powered wearable biomonitoring , 2021 .
[60] Yuanjie Su,et al. NiWO4 Microflowers on Multi-Walled Carbon Nanotubes for High-Performance NH3 Detection. , 2021, ACS applied materials & interfaces.
[61] Jun Chen,et al. Discovering giant magnetoelasticity in soft matter for electronic textiles. , 2021, Matter.
[62] Jun Chen,et al. Computational investigation of ultrasound induced electricity generation via a triboelectric nanogenerator , 2021, Nano Energy.
[63] Jun Chen,et al. Giant magnetoelastic effect in soft systems for bioelectronics , 2021, Nature Materials.
[64] Jun Chen,et al. Triboelectric Nanogenerators for Self-Powered Breath Monitoring , 2021, ACS Applied Energy Materials.
[65] T. Hsiai,et al. Ambulatory Cardiovascular Monitoring Via a Machine‐Learning‐Assisted Textile Triboelectric Sensor , 2021, Advanced materials.
[66] Jun Chen,et al. Advances in Triboelectric Nanogenerators for Self‐Powered Regenerative Medicine , 2021, Advanced Functional Materials.
[67] Jun Chen,et al. Wearable Biosensors for Non-Invasive Sweat Diagnostics , 2021, Biosensors.
[68] P. Basset,et al. Triboelectric nanogenerator—Progress and perspectives , 2021, EcoMat.
[69] Jun Chen,et al. Triboelectric Nanogenerators for Self‐Powered Wound Healing , 2021, Advanced healthcare materials.
[70] Yuanjie Su,et al. Self‐Powered Respiration Monitoring Enabled By a Triboelectric Nanogenerator , 2021, Advanced materials.
[71] Jun Chen,et al. Bioinspired Graphene Oxide Membranes with pH-Responsive Nanochannels for High-Performance Nanofiltration. , 2021, ACS nano.
[72] Zhong Lin Wang,et al. Bionic Ultra‐Sensitive Self‐Powered Electromechanical Sensor for Muscle‐Triggered Communication Application , 2021, Advanced science.
[73] A. Kottapalli,et al. Bioinspired designs and biomimetic applications of triboelectric nanogenerators , 2021 .
[74] Lijie Li,et al. Triboelectric nanogenerator based self-powered sensor for artificial intelligence , 2021, Nano Energy.
[75] Weiqing Yang,et al. Air-Stable Conductive Polymer Ink for Printed Wearable Micro-Supercapacitors. , 2021, Small.
[76] Jun Chen,et al. Triboelectric Nanogenerators for Therapeutic Electrical Stimulation , 2021, Advanced materials.
[77] Jun Chen,et al. Triboelectric nanogenerators for self-powered drug delivery , 2021 .
[78] Qingshen Jing,et al. A portable triboelectric spirometer for wireless pulmonary function monitoring , 2021, Biosensors and Bioelectronics.
[79] Yongjiu Zou,et al. A hand-driven portable triboelectric nanogenerator using whirligig spinning dynamics , 2021 .
[80] Hassan Askari,et al. Nanogenerators for smart cities in the era of 5G and Internet of Things , 2021 .
[81] Tsu-Chin Tsao,et al. Somatosensory actuator based on stretchable conductive photothermally responsive hydrogel , 2021, Science Robotics.
[82] Jun Chen,et al. All-in-one conformal epidermal patch for multimodal biosensing , 2021 .
[83] Dae-Hyeong Kim,et al. Nanoscale Materials and Deformable Device Designs for Bioinspired and Biointegrated Electronics , 2021 .
[84] C. Q. Lee,et al. A fluorinated polymer sponge with superhydrophobicity for high-performance biomechanical energy harvesting , 2021, Nano Energy.
[85] Yang Liu,et al. Constructing “Rigid-and-Soft” interlocking stereoscopic interphase structure of aramid fiber composites with high interfacial shear strength and toughness , 2021 .
[86] Xiangyang Liu,et al. Post-construction of weaving structure in aramid fiber towards improvements of its transverse properties , 2021 .
[87] Ardo Nashalian,et al. Leveraging triboelectric nanogenerators for bioengineering , 2021 .
[88] Qundong Shen,et al. Skin-Inspired Pressure Sensor with MXene/P(VDF-TrFE-CFE) as Active Layer for Wearable Electronics , 2021, Nanomaterials.
[89] A. Torralba,et al. Learning human–environment interactions using conformal tactile textiles , 2021, Nature Electronics.
[90] Jun Chen,et al. Textiles for learning tactile interactions , 2021, Nature Electronics.
[91] Lei Jiang,et al. Bioinspired Two-Dimensional Structure with Asymmetric Wettability Barriers for Unidirectional and Long-Distance Gas Bubble Delivery Underwater. , 2021, Nano letters.
[92] Yuanjie Su,et al. Muscle Fibers Inspired High‐Performance Piezoelectric Textiles for Wearable Physiological Monitoring , 2021, Advanced Functional Materials.
[93] Alberto Libanori,et al. Wearable Triboelectric Nanogenerators for Therapeutics , 2021 .
[94] Yongjiu Zou,et al. Advances in Nanostructures for High‐Performance Triboelectric Nanogenerators , 2021, Advanced Materials Technologies.
[95] Z. Lou,et al. Wearable Sensors‐Enabled Human–Machine Interaction Systems: From Design to Application , 2020, Advanced Functional Materials.
[96] J. Rabaey,et al. A wearable biosensing system with in-sensor adaptive machine learning for hand gesture recognition , 2020, Nature Electronics.
[97] Huanyu Cheng,et al. Bioinspired, multifunctional dual-mode pressure sensors as electronic skin for decoding complex loading processes and human motions , 2020 .
[98] Yongjiu Zou,et al. Leverage Surface Chemistry for High-Performance Triboelectric Nanogenerators , 2020, Frontiers in Chemistry.
[99] Zhong Lin Wang,et al. Bioinspired Self‐Healing Human–Machine Interactive Touch Pad with Pressure‐Sensitive Adhesiveness on Targeted Substrates , 2020, Advanced materials.
[100] Jing Xu,et al. Triboelectric Nanogenerator Enabled Smart Shoes for Wearable Electricity Generation , 2020, Research.
[101] Conor J Walsh,et al. Ultra-sensitive and resilient compliant strain gauges for soft machines , 2020, Nature.
[102] Jun Chen,et al. Smart Insole for Robust Wearable Biomechanical Energy Harvesting in Harsh Environments. , 2020, ACS nano.
[103] Jun Chen,et al. Advances in triboelectric nanogenerators for biomedical sensing. , 2020, Biosensors & bioelectronics.
[104] Weiqing Yang,et al. An ultrathin robust polymer membrane for wearable solid-state electrochemical energy storage , 2020 .
[105] M. T. Rahman,et al. A human skin-inspired self-powered flex sensor with thermally embossed microstructured triboelectric layers for sign language interpretation , 2020 .
[106] Dagmar R. D’hooge,et al. Recent progress on flexible and stretchable piezoresistive strain sensors: From design to application , 2020 .
[107] Chuan Ning,et al. Stretchable, Washable, and Ultrathin Triboelectric Nanogenerators as Skin‐Like Highly Sensitive Self‐Powered Haptic Sensors , 2020, Advanced Functional Materials.
[108] Jing Xu,et al. Engineering Materials at the Nanoscale for Triboelectric Nanogenerators , 2020 .
[109] J. Gale,et al. Bioinspired Multiresonant Acoustic Devices Based on Electrospun Piezoelectric Polymeric Nanofibers , 2020, ACS applied materials & interfaces.
[110] Chenchen Sun,et al. Sign-to-speech translation using machine-learning-assisted stretchable sensor arrays , 2020, Nature Electronics.
[111] Long Jin,et al. Manipulating Relative Permittivity for High-Performance Wearable Triboelectric Nanogenerators. , 2020, Nano letters.
[112] Zheng Yan,et al. Gesture recognition using a bioinspired learning architecture that integrates visual data with somatosensory data from stretchable sensors , 2020 .
[113] Xueji Zhang,et al. Integrated Smart Janus Textile Bands for Self-pumping Sweat Sampling and Analysis. , 2020, ACS sensors.
[114] Yi Nie,et al. Photo-Rechargeable Fabrics as Sustainable and Robust Power Sources for Wearable Bioelectronics , 2020 .
[115] Jun Chen,et al. Single-layered ultra-soft washable smart textiles for all-around ballistocardiograph, respiration, and posture monitoring during sleep. , 2020, Biosensors & bioelectronics.
[116] Yadong Jiang,et al. Alveolus-Inspired Active Membrane Sensors for Self-Powered Wearable Chemical Sensing and Breath Analysis. , 2020, ACS nano.
[117] Jun Chen,et al. Smart Textiles for Electricity Generation. , 2020, Chemical reviews.
[118] Luying Li,et al. Bioinspired Micro-Spines for a High-Performance Spray Ti3C2Tx MXene-Based Piezoresistive Sensor. , 2020, ACS nano.
[119] Tiehu Li,et al. Triboelectric Nanogenerator Based Smart Electronics via Machine Learning , 2020, Advanced Materials Technologies.
[120] Wei Guo,et al. Bioinspired Triboelectric Nanogenerators as Self‐Powered Electronic Skin for Robotic Tactile Sensing , 2019, Advanced Functional Materials.
[121] Che-Min Chiu,et al. A smart glove with integrated triboelectric nanogenerator for self-powered gesture recognition and language expression , 2019, Science and technology of advanced materials.
[122] Xiaokun Zhang,et al. Ultrathin, flexible, solid polymer composite electrolyte enabled with aligned nanoporous host for lithium batteries , 2019, Nature Nanotechnology.
[123] A. Torralba,et al. Learning the signatures of the human grasp using a scalable tactile glove , 2019, Nature.
[124] Hongyu Ma,et al. Bioinspired Slippery Cone for Controllable Manipulation of Gas Bubbles in Low-Surface-Tension Environment. , 2019, ACS nano.
[125] Vivek T. Rathod,et al. A Review of Electric Impedance Matching Techniques for Piezoelectric Sensors, Actuators and Transducers , 2019, Electronics.
[126] Antonino S. Fiorillo,et al. Theory, technology and applications of piezoresistive sensors: A review , 2018, Sensors and Actuators A: Physical.
[127] Liqun Zhang,et al. A Flexible Wearable Pressure Sensor with Bioinspired Microcrack and Interlocking for Full-Range Human-Machine Interfacing. , 2018, Small.
[128] Zhiyong Fan,et al. Bionic Single-Electrode Electronic Skin Unit Based on Piezoelectric Nanogenerator. , 2018, ACS nano.
[129] Paolo Dario,et al. Biomedical applications of soft robotics , 2018, Nature Reviews Materials.
[130] K. Chun,et al. A Self‐Powered Sensor Mimicking Slow‐ and Fast‐Adapting Cutaneous Mechanoreceptors , 2018, Advanced materials.
[131] Cunming Yu,et al. Bioinspired Pressure-Tolerant Asymmetric Slippery Surface for Continuous Self-Transport of Gas Bubbles in Aqueous Environment. , 2018, ACS nano.
[132] Zhong Lin Wang,et al. Reviving Vibration Energy Harvesting and Self-Powered Sensing by a Triboelectric Nanogenerator , 2017 .
[133] M. Sitti,et al. Bioinspired Composite Microfibers for Skin Adhesion and Signal Amplification of Wearable Sensors , 2017, Advanced materials.
[134] Junghyo Nah,et al. Formation of Triboelectric Series via Atomic-Level Surface Functionalization for Triboelectric Energy Harvesting. , 2017, ACS nano.
[135] Quankang Wang,et al. A Bioinspired Mineral Hydrogel as a Self‐Healable, Mechanically Adaptable Ionic Skin for Highly Sensitive Pressure Sensing , 2017, Advanced materials.
[136] Nannan Zhang,et al. Progress in triboelectric nanogenerators as self-powered smart sensors , 2017 .
[137] Nannan Zhang,et al. Micro-cable structured textile for simultaneously harvesting solar and mechanical energy , 2016, Nature Energy.
[138] Zhong Lin Wang,et al. Self-Powered Safety Helmet Based on Hybridized Nanogenerator for Emergency. , 2016, ACS nano.
[139] Lei Zhang,et al. Rotating-Disk-Based Hybridized Electromagnetic-Triboelectric Nanogenerator for Sustainably Powering Wireless Traffic Volume Sensors. , 2016, ACS nano.
[140] B. Grant,et al. A beak size locus in Darwin’s finches facilitated character displacement during a drought , 2016, Science.
[141] Sam Emaminejad,et al. Fully integrated wearable sensor arrays for multiplexed in situ perspiration analysis , 2016, Nature.
[142] Zhaona Wang,et al. Eardrum‐Inspired Active Sensors for Self‐Powered Cardiovascular System Characterization and Throat‐Attached Anti‐Interference Voice Recognition , 2015, Advanced materials.
[143] Peng Bai,et al. Personalized keystroke dynamics for self-powered human--machine interfacing. , 2015, ACS nano.
[144] James J. S. Norton,et al. Materials and Optimized Designs for Human‐Machine Interfaces Via Epidermal Electronics , 2013, Advanced materials.
[145] D. Cliffel,et al. Electrochemical sensors and biosensors. , 2012, Analytical chemistry.
[146] Lucia Beccai,et al. Development of a bioinspired MEMS based capacitive tactile sensor for a robotic finger , 2011 .
[147] Benjamin C. K. Tee,et al. Highly sensitive flexible pressure sensors with microstructured rubber dielectric layers. , 2010, Nature materials.
[148] Victor Giurgiutiu,et al. Durability and Survivability of Piezoelectric Wafer Active Sensors on Metallic Structure , 2010 .
[149] Wuqiang Yang,et al. Planar capacitive sensors – designs and applications , 2010 .
[150] Srinivas Tadigadapa,et al. Piezoelectric MEMS sensors: state-of-the-art and perspectives , 2009 .
[151] J. Sikula,et al. Mathematical Model for Electrical Noise of Piezoelectric Sensor , 2007 .
[152] E. Scilingo,et al. Polymer based interfaces as bioinspired 'smart skins'. , 2005, Advances in colloid and interface science.
[153] W. Penrose,et al. Sensors, Chemical Sensors, Electrochemical Sensors, and ECS , 2003 .
[154] W. Hwang,et al. Finite Element Modeling of Piezoelectric Sensors and Actuators , 1993 .
[155] E. Bakker,et al. Electrochemical sensors. , 2002, Analytical chemistry.