Recent Advances of Capacitive Sensors: Materials, Microstructure Designs, Applications, and Opportunities
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[1] Wenyong Lai,et al. Flexible Transparent Bifunctional Capacitive Sensors with Superior Areal Capacitance and Sensing Capability based on PEDOT:PSS/MXene/Ag Grid Hybrid Electrodes , 2022, Advanced Functional Materials.
[2] Wenyong Lai,et al. Wireless Human-Machine Interface Based on Artificial Bionic Skin with Damage Reconfiguration and Multisensing Capabilities. , 2022, ACS applied materials & interfaces.
[3] T. Chou,et al. An overview of composite structural engineering for stretchable strain sensors , 2022, Composites Science and Technology.
[4] Yuke Chen,et al. Perception‐to‐Cognition Tactile Sensing Based on Artificial‐Intelligence‐Motivated Human Full‐Skin Bionic Electronic Skin , 2022, Advanced materials.
[5] Wenyong Lai,et al. Artificial intelligent optoelectronic skin with anisotropic electrical and optical responses for multi-dimensional sensing , 2022, Applied Physics Reviews.
[6] Xueyong Wei,et al. Graded Interlocks for Iontronic Pressure Sensors with High Sensitivity and High Linearity over a Broad Range. , 2022, ACS nano.
[7] Qiang Zou,et al. An intrinsically embedded pressure-temperature dual-mode soft sensor towards soft robotics , 2021, Sensors and Actuators A: Physical.
[8] C. Bettinger,et al. Recent Progress in Materials Chemistry to Advance Flexible Bioelectronics in Medicine , 2021, Advanced materials.
[9] Huanxi Zheng,et al. 3D Printed, Solid‐State Conductive Ionoelastomer as a Generic Building Block for Tactile Applications , 2021, Advanced materials.
[10] Sihong Wang,et al. A stretchable and strain-unperturbed pressure sensor for motion interference–free tactile monitoring on skins , 2021, Science advances.
[11] N. Ning,et al. Dielectric elastomer sensor with high dielectric constant and capacitive strain sensing properties by designing polar-nonpolar fluorosilicone multiblock copolymers and introducing poly(dopamine) modified CNTs , 2021 .
[12] J. S. Ho,et al. Wirelessly operated bioelectronic sutures for the monitoring of deep surgical wounds , 2021, Nature Biomedical Engineering.
[13] B. Ji,et al. Gradient Architecture-Enabled Capacitive Tactile Sensor with High Sensitivity and Ultrabroad Linearity Range. , 2021, Small.
[14] N. Lu,et al. Highly Sensitive Capacitive Pressure Sensors over a Wide Pressure Range Enabled by the Hybrid Responses of a Highly Porous Nanocomposite , 2021, Advanced materials.
[15] Yuxiang Qin,et al. Bioinspired Design of Hill‐Ridge Architecture‐Based Iontronic Sensor with High Sensibility and Piecewise Linearity , 2021, Advanced Materials Technologies.
[16] Ke Dong,et al. Three-Dimensional Printing of a Flexible Capacitive Pressure Sensor Array in the Assembly Network of Carbon Fiber Electrodes and Interlayer of a Porous Polyurethane Dielectric , 2021, ACS Applied Electronic Materials.
[17] Sachin Mishra,et al. Ultrasensitive and Reusable Graphene Oxide-Modified Double-Interdigitated Capacitive (DIDC) Sensing Chip for Detecting SARS-CoV-2. , 2021, ACS sensors.
[18] V. Correia,et al. Environmentally Friendly Graphene‐Based Conductive Inks for Multitouch Capacitive Sensing Surfaces , 2021, Advanced Materials Interfaces.
[19] Wenfeng Liu,et al. Analytical Model of Micropyramidal Capacitive Pressure Sensors and Machine‐Learning‐Assisted Design , 2021, Advanced Materials Technologies.
[20] E. Ofek,et al. A mechatronic shape display based on auxetic materials , 2021, Nature Communications.
[21] N. Fang,et al. Skin-electrode iontronic interface for mechanosensing , 2021, Nature Communications.
[22] Mehmet Turan,et al. Graphene and carbon nanotubes interfaced electrochemical nanobiosensors for the detection of SARS-CoV-2 (COVID-19) and other respiratory viral infections: A review , 2021, Materials Science and Engineering: C.
[23] Bijender,et al. Flexible and wearable capacitive pressure sensor for blood pressure monitoring , 2021, Sensing and Bio-Sensing Research.
[24] C. Majidi,et al. Cutaneous Ionogel Mechanoreceptors for Soft Machines, Physiological Sensing, and Amputee Prostheses , 2021, Advanced materials.
[25] G. Lubineau,et al. Achieving Super Sensitivity in Capacitive Strain Sensing by Electrode Fragmentation. , 2021, ACS applied materials & interfaces.
[26] Yu Zhao,et al. Flexible and Stretchable Capacitive Sensors with Different Microstructures , 2021, Advanced materials.
[27] Shengtong Sun,et al. Skin-like mechanoresponsive self-healing ionic elastomer from supramolecular zwitterionic network , 2021, Nature Communications.
[28] Zikang Tang,et al. Highly Sensitive Capacitive Pressure Sensor Based on a Micropyramid Array for Health and Motion Monitoring , 2021, Advanced Electronic Materials.
[29] B. Meng,et al. Multilayer Double-Sided Microstructured Flexible Iontronic Pressure Sensor with a Record-wide Linear Working Range. , 2021, ACS sensors.
[30] Xuchun Gui,et al. Ultrasensitive, Stretchable, and Fast-Response Temperature Sensors Based on Hydrogel Films for Wearable Applications. , 2021, ACS applied materials & interfaces.
[31] Brett C. Hannigan,et al. Understanding the Impact of Machine Learning Models on the Performance of Different Flexible Strain Sensor Modalities , 2021, Frontiers in Materials.
[32] C. Zhi,et al. A Highly Stable and Durable Capacitive Strain Sensor Based on Dynamically Super‐Tough Hydro/Organo‐Gels , 2021, Advanced Functional Materials.
[33] Yeongjun Kim,et al. Fabrication of hierarchically porous structured PDMS composites and their application as a flexible capacitive pressure sensor , 2021 .
[34] Stephan J. Ihle,et al. Stretchable and suturable fibre sensors for wireless monitoring of connective tissue strain , 2021, Nature Electronics.
[35] M. Pecht,et al. Resistive and capacitive strain sensors based on customized compliant electrode: Comparison and their wearable applications , 2021 .
[36] Eun Seong Kim,et al. Ultra-fast and recyclable DNA biosensor for point-of-care detection of SARS-CoV-2 (COVID-19) , 2021, Biosensors and Bioelectronics.
[37] Yan Zheng,et al. Highly sensitive electronic skin with a linear response based on the strategy of controlling the contact area , 2021, Nano Energy.
[38] A. K. Bose,et al. Highly Sensitive Porous PDMS-Based Capacitive Pressure Sensors Fabricated on Fabric Platform for Wearable Applications. , 2021, ACS sensors.
[39] Xueliang Xiao,et al. Fabrication of capacitive pressure sensor with extraordinary sensitivity and wide sensing range using PAM/BIS/GO nanocomposite hydrogel and conductive fabric , 2021 .
[40] Rishabh B. Mishra,et al. Recent Progress on Flexible Capacitive Pressure Sensors: From Design and Materials to Applications , 2021, Advanced Materials Technologies.
[41] Eshwar Reddy Cholleti,et al. Studying the creep behaviour of strechable capacitive sensor with barium titanate silicone elastomer composite , 2021 .
[42] Yijun Shi,et al. A flexible highly sensitive capacitive pressure sensor , 2021 .
[43] D. Wei,et al. Microconformal electrode-dielectric integration for flexible ultrasensitive robotic tactile sensing , 2021 .
[44] J. Park,et al. Hydrogen-Bond-Triggered Hybrid Nanofibrous Membrane-Based Wearable Pressure Sensor with Ultrahigh Sensitivity over a Broad Pressure Range. , 2021, ACS nano.
[45] Hongwei Zhou,et al. Capacitive Pressure Sensors Containing Reliefs on Solution-Processable Hydrogel Electrodes. , 2021, ACS applied materials & interfaces.
[46] Yong-Hoon Kim,et al. Highly Sensitive Textile-Based Capacitive Pressure Sensors Using PVDF-HFP/Ionic Liquid Composite Films , 2021, Sensors.
[47] Sara Rachel Arussy Ruth,et al. Designing Tunable Capacitive Pressure Sensors Based on Material Properties and Microstructure Geometry. , 2020, ACS applied materials & interfaces.
[48] P. Searson,et al. A Capacitive Sweat Rate Sensor for Continuous and Real-Time Monitoring of Sweat Loss. , 2020, ACS sensors.
[49] Yeongjun Kim,et al. Simple Fabrication of Highly Sensitive Capacitive Pressure Sensors Using a Porous Dielectric Layer With Cone-Shaped Patterns , 2020 .
[50] Yin Bi,et al. Research progress of flexible capacitive pressure sensor for sensitivity enhancement approaches , 2020 .
[51] Tianxi Liu,et al. Extremely stretchable and healable ionic conductive hydrogels fabricated by surface competitive coordination for human-motion detection , 2020 .
[52] Eshwar Thouti,et al. Tunable flexible capacitive pressure sensors using arrangement of polydimethylsiloxane micro-pyramids for bio-signal monitoring , 2020 .
[53] Chi Cuong Vu,et al. Highly elastic capacitive pressure sensor based on smart textiles for full-range human motion monitoring , 2020, Sensors and Actuators A: Physical.
[54] Ruixin X. Tang,et al. Anisotropic, Flexible Wood Hydrogel and Wrinkled, Electrodeposited Film Electrode for Highly Sensitive, Wide-range Pressure Sensing. , 2020, ACS applied materials & interfaces.
[55] Kye-Si Kwon,et al. Low‐Cost Fabrication Method for Thin, Flexible, and Transparent Touch Screen Sensors , 2020, Advanced Materials Technologies.
[56] Sung Young Park,et al. Mineralized Soft and Elastic Polymer Dots-Hydrogel for Flexible Self-Powered Electronic Skin Sensor. , 2020, ACS applied materials & interfaces.
[57] J. Park,et al. Enhanced Sensitivity of Capacitive Pressure and Strain Sensor Based on CaCu3Ti4O12 Wrapped Hybrid Sponge for Wearable Applications , 2020, Advanced Functional Materials.
[58] Lei Ren,et al. Textile Based Capacitive Sensor for Physical Rehabilitation via Surface Topological Modification. , 2020, ACS nano.
[59] Chun H. Wang,et al. A Multimodal Capacitive and Piezoresistive Sensor for Simultaneous Measurement of Multiple Forces. , 2020, ACS applied materials & interfaces.
[60] J. Park,et al. Wearable Capacitive Pressure Sensor Based on MXene Composite Nanofibrous Scaffolds for Reliable Human Physiological Signal Acquisition. , 2020, ACS applied materials & interfaces.
[61] Xin Yan,et al. Progress in achieving high-performance piezoresistive and capacitive flexible pressure sensors: A review , 2020 .
[62] S. Lanceros‐Méndez,et al. Ionic Liquid–Polymer Composites: A New Platform for Multifunctional Applications , 2020, Advanced Functional Materials.
[63] Lan Tian,et al. A flexible, ultra-highly sensitive and stable capacitive pressure sensor with convex microarrays for motion and health monitoring , 2020 .
[64] Seunghwa Ryu,et al. Transparent Pressure Sensor with High Linearity over a Wide Pressure Range for 3D Touch Screen Applications. , 2020, ACS applied materials & interfaces.
[65] C. Wong,et al. Highly Sensitive Conformal Pressure Sensing Coatings Based on Thermally Expandable Microspheres , 2020, Advanced Materials Technologies.
[66] Yiwei Liu,et al. A Stretchable Capacitive Strain Sensor Having Adjustable Elastic Modulus Capability for Wide‐Range Force Detection , 2020, Advanced Engineering Materials.
[67] Chun-Hui Wang,et al. Strategies for Designing Stretchable Strain Sensors and Conductors , 2020, Advanced Materials Technologies.
[68] Xuanhe Zhao,et al. Graded intrafillable architecture-based iontronic pressure sensor with ultra-broad-range high sensitivity , 2020, Nature Communications.
[69] D. Kwon,et al. Synergetic Effect of Porous Elastomer and Percolation of Carbon Nanotube Filler towards High Performance Capacitive Pressure Sensors. , 2019, ACS applied materials & interfaces.
[70] Xiaotong Xiang,et al. High-performance and flexible solid-state supercapacitors based on high toughness and thermoplastic poly(vinyl alcohol)/NaCl/glycerol supramolecular gel polymer electrolyte , 2019, Electrochimica Acta.
[71] Vipin Amoli,et al. Ionic Tactile Sensors for Emerging Human‐Interactive Technologies: A Review of Recent Progress , 2019, Advanced Functional Materials.
[72] Wei Zeng,et al. Rapid-Response, Low Detection Limit, and High-Sensitivity Capacitive Flexible Tactile Sensor Based on Three-Dimensional Porous Dielectric Layer for Wearable Electronic Skin. , 2019, ACS applied materials & interfaces.
[73] Ravinder Dahiya,et al. Fingerprint‐Enhanced Capacitive‐Piezoelectric Flexible Sensing Skin to Discriminate Static and Dynamic Tactile Stimuli , 2019, Adv. Intell. Syst..
[74] Vipin Amoli,et al. A bioinspired hydrogen bond-triggered ultrasensitive ionic mechanoreceptor skin , 2019, Nature Communications.
[75] Jeong-Yun Sun,et al. Auxetic elastomers: Mechanically programmable meta-elastomers with an unusual Poisson’s ratio overcome the gauge limit of a capacitive type strain sensor , 2019, Extreme Mechanics Letters.
[76] Jun Yang,et al. Monolithic Dual‐Material 3D Printing of Ionic Skins with Long‐Term Performance Stability , 2019, Advanced Functional Materials.
[77] Zhenan Bao,et al. Rational Design of Capacitive Pressure Sensors Based on Pyramidal Microstructures for Specialized Monitoring of Biosignals , 2019, Advanced Functional Materials.
[78] Ying Chen,et al. High‐Performance Flexible Tactile Sensor Enabling Intelligent Haptic Perception for a Soft Prosthetic Hand , 2019, Advanced Materials Technologies.
[79] Yang Gao,et al. Highly Stretchable and Self‐Healable MXene/Polyvinyl Alcohol Hydrogel Electrode for Wearable Capacitive Electronic Skin , 2019, Advanced Electronic Materials.
[80] Lianmao Peng,et al. Tunable, Ultrasensitive, and Flexible Pressure Sensors Based on Wrinkled Microstructures for Electronic Skins. , 2019, ACS applied materials & interfaces.
[81] J. Y. Sim,et al. Microstructured Porous Pyramid-Based Ultrahigh Sensitive Pressure Sensor Insensitive to Strain and Temperature. , 2019, ACS applied materials & interfaces.
[82] Michelle Khine,et al. Soft Wearable Pressure Sensors for Beat‐to‐Beat Blood Pressure Monitoring , 2019, Advanced healthcare materials.
[83] Guoying Gu,et al. Scalable Processing Ultrathin Polymer Dielectric Films with a Generic Solution Based Approach for Wearable Soft Electronics , 2019, Advanced Materials Technologies.
[84] Z. Yin,et al. Micropatterned elastic ionic polyacrylamide hydrogel for low-voltage capacitive and organic thin-film transistor pressure sensors , 2019, Nano Energy.
[85] Jian Wang,et al. Capacitive Pressure Sensor with Wide-Range, Bendable, and High Sensitivity Based on the Bionic Komochi Konbu Structure and Cu/Ni Nanofiber Network. , 2019, ACS applied materials & interfaces.
[86] Jianting Fu,et al. Flexible, Tunable, and Ultrasensitive Capacitive Pressure Sensor with Microconformal Graphene Electrodes. , 2019, ACS applied materials & interfaces.
[87] Ashok Chhetry,et al. Ultrasensitive Interfacial Capacitive Pressure Sensor Based on a Randomly Distributed Microstructured Iontronic Film for Wearable Applications. , 2018, ACS applied materials & interfaces.
[88] Oussama Khatib,et al. A hierarchically patterned, bioinspired e-skin able to detect the direction of applied pressure for robotics , 2018, Science Robotics.
[89] R. Sun,et al. Self-Healable and Mechanically Reinforced Multidimensional-Carbon/Polyurethane Dielectric Nanocomposite Incorporates Various Functionalities for Capacitive Strain Sensor Applications , 2018, Macromolecular Chemistry and Physics.
[90] J. Y. Sim,et al. A Highly Sensitive Bending Sensor Based on Controlled Crack Formation Integrated with an Energy Harvesting Pyramid Layer , 2018, Advanced Materials Technologies.
[91] Wook Kim,et al. Ultrasensitive, Low-Power Oxide Transistor-Based Mechanotransducer with Microstructured, Deformable Ionic Dielectrics. , 2018, ACS applied materials & interfaces.
[92] T. Someya,et al. A Highly Sensitive Capacitive-type Strain Sensor Using Wrinkled Ultrathin Gold Films. , 2018, Nano letters (Print).
[93] Seunghoe Kim,et al. Highly Sensitive Multifilament Fiber Strain Sensors with Ultrabroad Sensing Range for Textile Electronics. , 2018, ACS nano.
[94] Anibal T. de Almeida,et al. Fabrication and characterization of bending and pressure sensors for a soft prosthetic hand , 2018 .
[95] Zhong Lin Wang,et al. Skin-inspired highly stretchable and conformable matrix networks for multifunctional sensing , 2018, Nature Communications.
[96] S. Koester,et al. Capacitive Sensing of Glucose in Electrolytes Using Graphene Quantum Capacitance Varactors. , 2017, ACS applied materials & interfaces.
[97] S. Chang,et al. Highly Sensitive Piezocapacitive Sensor for Detecting Static and Dynamic Pressure Using Ion-Gel Thin Films and Conductive Elastomeric Composites. , 2017, ACS applied materials & interfaces.
[98] Jin-Woo Park,et al. Wearable and Transparent Capacitive Strain Sensor with High Sensitivity Based on Patterned Ag Nanowire Networks. , 2017, ACS applied materials & interfaces.
[99] Yu Zhang,et al. Highly Sensitive Flexible Pressure Sensor Based on Silver Nanowires-Embedded Polydimethylsiloxane Electrode with Microarray Structure. , 2017, ACS applied materials & interfaces.
[100] Bongkyun Jang,et al. Graphene-Based Three-Dimensional Capacitive Touch Sensor for Wearable Electronics. , 2017, ACS nano.
[101] Kyo Sang Choi,et al. A novel means of fabricating microporous structures for the dielectric layers of capacitive pressure sensor , 2017 .
[102] Robert J. Wood,et al. A Highly Stretchable Capacitive‐Based Strain Sensor Based on Metal Deposition and Laser Rastering , 2017 .
[103] Rohit Abraham John,et al. Transparent Flexible Multifunctional Nanostructured Architectures for Non-optical Readout, Proximity, and Pressure Sensing. , 2017, ACS applied materials & interfaces.
[104] Xiao Xie,et al. Graphene oxide as high-performance dielectric materials for capacitive pressure sensors , 2017 .
[105] Cheolmin Park,et al. Micropatterned Pyramidal Ionic Gels for Sensing Broad-Range Pressures with High Sensitivity. , 2017, ACS applied materials & interfaces.
[106] Kevin O'Brien,et al. Optoelectronically innervated soft prosthetic hand via stretchable optical waveguides , 2016, Science Robotics.
[107] Saleh A. Al-Sayari,et al. Highly Sensitive Pressure Sensor Based on Bioinspired Porous Structure for Real‐Time Tactile Sensing , 2016 .
[108] Changsoon Choi,et al. Twistable and Stretchable Sandwich Structured Fiber for Wearable Sensors and Supercapacitors. , 2016, Nano letters.
[109] Zhenan Bao,et al. Pursuing prosthetic electronic skin. , 2016, Nature materials.
[110] Rahim Mutlu,et al. Fabrication and characterisation of highly stretchable elastomeric strain sensors for prosthetic hand applications , 2016 .
[111] Xiaojun Guo,et al. Large Area One-Step Facile Processing of Microstructured Elastomeric Dielectric Film for High Sensitivity and Durable Sensing over Wide Pressure Range. , 2016, ACS applied materials & interfaces.
[112] Yong Ju Park,et al. Graphene‐Based Flexible and Stretchable Electronics , 2016, Advanced materials.
[113] Tingrui Pan,et al. Flexible Transparent Iontronic Film for Interfacial Capacitive Pressure Sensing , 2015, Advanced materials.
[114] Youngjin Jeong,et al. Highly Sensitive and Multimodal All‐Carbon Skin Sensors Capable of Simultaneously Detecting Tactile and Biological Stimuli , 2015, Advanced materials.
[115] Seulah Lee,et al. Ag Nanowire Reinforced Highly Stretchable Conductive Fibers for Wearable Electronics , 2015 .
[116] Ja Hoon Koo,et al. Conductive Fiber‐Based Ultrasensitive Textile Pressure Sensor for Wearable Electronics , 2015, Advanced materials.
[117] Lili Jiang,et al. Flexible, Free-Standing TiO2–Graphene–Polypyrrole Composite Films as Electrodes for Supercapacitors , 2015 .
[118] Woo Jin Hyun,et al. High‐Resolution Patterning of Graphene by Screen Printing with a Silicon Stencil for Highly Flexible Printed Electronics , 2015, Advanced materials.
[119] Qibing Pei,et al. Healable capacitive touch screen sensors based on transparent composite electrodes comprising silver nanowires and a furan/maleimide diels-alder cycloaddition polymer. , 2014, ACS nano.
[120] Mira Park,et al. Facile preparation and characterization of poly(vinyl alcohol)/chitosan/graphene oxide biocomposite nanofibers , 2014 .
[121] Benjamin C. K. Tee,et al. Tunable Flexible Pressure Sensors using Microstructured Elastomer Geometries for Intuitive Electronics , 2014 .
[122] Jong-Hyun Ahn,et al. Ultrathin organic solar cells with graphene doped by ferroelectric polarization. , 2014, ACS applied materials & interfaces.
[123] Yalin Lu,et al. Capacitance of carbon-based electrical double-layer capacitors , 2014, Nature Communications.
[124] L. Beccai,et al. Flexible Three‐Axial Force Sensor for Soft and Highly Sensitive Artificial Touch , 2014, Advanced materials.
[125] Guozhen Chen,et al. Capacitive contact lens sensor for continuous non-invasive intraocular pressure monitoring , 2013 .
[126] Bowen Yao,et al. An improved Hummers method for eco-friendly synthesis of graphene oxide , 2013 .
[127] Benjamin C. K. Tee,et al. 25th Anniversary Article: The Evolution of Electronic Skin (E‐Skin): A Brief History, Design Considerations, and Recent Progress , 2013, Advanced materials.
[128] Benjamin C. K. Tee,et al. Flexible polymer transistors with high pressure sensitivity for application in electronic skin and health monitoring , 2013, Nature Communications.
[129] B. Ganji,et al. A novel high sensitive MEMS intraocular capacitive pressure sensor , 2013 .
[130] L. Zhi,et al. Rod‐Coating: Towards Large‐Area Fabrication of Uniform Reduced Graphene Oxide Films for Flexible Touch Screens , 2012, Advanced materials.
[131] P. Irazoqui,et al. Polymer-based miniature flexible capacitive pressure sensor for intraocular pressure (IOP) monitoring inside a mouse eye , 2011, Biomedical Microdevices.
[132] Charles M. Lieber,et al. Synthesis of monolithic graphene-graphite integrated electronics. , 2012, Nature materials.
[133] Benjamin C. K. Tee,et al. Skin-like pressure and strain sensors based on transparent elastic films of carbon nanotubes. , 2011, Nature nanotechnology.
[134] Liangbing Hu,et al. Emerging Transparent Electrodes Based on Thin Films of Carbon Nanotubes, Graphene, and Metallic Nanostructures , 2011, Advanced materials.
[135] N. Lovell,et al. Characterization of a capacitive tactile shear sensor for application in robotic and upper limb prostheses , 2011 .
[136] Mu Chiao,et al. Development of a compensated capacitive pressure and temperature sensor using adhesive bonding and chemical-resistant coating for multiphase chemical reactors , 2010 .
[137] Kwang S. Kim,et al. Roll-to-roll production of 30-inch graphene films for transparent electrodes. , 2010, Nature nanotechnology.
[138] A. Ferrari,et al. Graphene Photonics and Optoelectroncs , 2010, CLEO 2012.
[139] Qing‐An Huang,et al. A micromachined silicon capacitive temperature sensor for wide temperature range applications , 2010 .
[140] Bo Mattiasson,et al. A novel competitive capacitive glucose biosensor based on concanavalin A-labeled nanogold colloids assembled on a polytyramine-modified gold electrode. , 2010, Analytica chimica acta.
[141] A. Todoroki,et al. Wireless flexible capacitive sensor based on ultra-flexible epoxy resin for strain measurement of automobile tires , 2007 .
[142] Chou-Ching K. Lin,et al. An implantable capacitive pressure sensor for biomedical applications , 2007 .
[143] T. Someya,et al. Conformable, flexible, large-area networks of pressure and thermal sensors with organic transistor active matrixes. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[144] W. Nichols. Clinical measurement of arterial stiffness obtained from noninvasive pressure waveforms. , 2005, American journal of hypertension.
[145] W. S. Hummers,et al. Preparation of Graphitic Oxide , 1958 .