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Two-dimensional materials:From mechanical properties to flexible mechanical sensors 被引量:16
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作者 Hanjun Jiang Lu Zheng +1 位作者 Zheng Liu Xuewen Wang 《InfoMat》 SCIE CAS 2020年第6期1077-1094,共18页
Two-dimensional(2D)materials have great potential in the fields of flexible electronics and photoelectronic devices due to their unique properties derived by special structures.The study of the mechanical properties o... Two-dimensional(2D)materials have great potential in the fields of flexible electronics and photoelectronic devices due to their unique properties derived by special structures.The study of the mechanical properties of 2D materials plays an important role in next-generation flexible mechanical electronic device applications.Unfortunately,traditional experiment models and measurement methods are not suitable for 2D materials due to their atomically ultrathin thickness,which limits both the theoretical research and practical value of the 2D materials.In this review,we briefly summarize the characterization of mechanical properties of 2D materials by in situ probe nanoindentation experiments,and discuss the effect of thickness,grain boundary,and interlayer interactions.We introduce the strain-induced effect on electrical properties and optical properties of 2D materials.Then,we generalize the mechanical sensors based on various 2D materials and their future potential applications in flexible and wearable electronic devices.Finally,we discuss the state of the art for the mechanical properties of 2D materials and their opportunities and challenges in both basic research and practical applications. 展开更多
关键词 2D materials flexible mechanical sensor mechanical property strain effect
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Machine Learning‑Enhanced Flexible Mechanical Sensing 被引量:7
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作者 Yuejiao Wang Mukhtar Lawan Adam +4 位作者 Yunlong Zhao Weihao Zheng Libo Gao Zongyou Yin Haitao Zhao 《Nano-Micro Letters》 SCIE EI CAS CSCD 2023年第4期190-222,共33页
To realize a hyperconnected smart society with high productivity,advances in flexible sensing technology are highly needed.Nowadays,flexible sensing technology has witnessed improvements in both the hardware performan... To realize a hyperconnected smart society with high productivity,advances in flexible sensing technology are highly needed.Nowadays,flexible sensing technology has witnessed improvements in both the hardware performances of sensor devices and the data processing capabilities of the device’s software.Significant research efforts have been devoted to improving materials,sensing mechanism,and configurations of flexible sensing systems in a quest to fulfill the requirements of future technology.Meanwhile,advanced data analysis methods are being developed to extract useful information from increasingly complicated data collected by a single sensor or network of sensors.Machine learning(ML)as an important branch of artificial intelligence can efficiently handle such complex data,which can be multi-dimensional and multi-faceted,thus providing a powerful tool for easy interpretation of sensing data.In this review,the fundamental working mechanisms and common types of flexible mechanical sensors are firstly presented.Then how ML-assisted data interpretation improves the applications of flexible mechanical sensors and other closely-related sensors in various areas is elaborated,which includes health monitoring,human-machine interfaces,object/surface recognition,pressure prediction,and human posture/motion identification.Finally,the advantages,challenges,and future perspectives associated with the fusion of flexible mechanical sensing technology and ML algorithms are discussed.These will give significant insights to enable the advancement of next-generation artificial flexible mechanical sensing. 展开更多
关键词 Flexible mechanical sensors Machine learning Artificial intelligence Data processing
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Experimental Measurements of the Sensitivity of Fiber-optic Bragg Grating Sensors with a Soft Polymeric Coating under Mechanical Loading,Thermal and Magnetic under Cryogenic Conditions 被引量:2
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作者 关明智 王省哲 +2 位作者 辛灿杰 周又和 马力祯 《Chinese Physics Letters》 SCIE CAS CSCD 2015年第1期140-144,共5页
The strain and temperature sensing performance of fiber-optic Bragg gratings (FBGs) with soft polymeric coating, which can be used to sense internal strain in superconducting coils, are evaluated under variable cryo... The strain and temperature sensing performance of fiber-optic Bragg gratings (FBGs) with soft polymeric coating, which can be used to sense internal strain in superconducting coils, are evaluated under variable cryogenic field and magnetic field. The response to a temperature and strain change of coated-soft polymeric FBGs is tested by comparing with those of coated-metal FBGs. The results indicate that the coated-soft polymeric FBGs can freely detect temperature and thermal strain, their At variable magnetic field, the tested results indicate accuracy and repeatability are also discussed in detail. that the cross-coupling effects of FBGs with different matrixes are not negligible to measure electromagnetic strain during fast excitation. The present results are expected to be able to provide basis measurements on the strain of pulsed superconducting magnet/cable (cable- around-conduit conductors, cable-in-conduit conductors), independently or utilized together with other strain measurement methods. 展开更多
关键词 FBG net Experimental Measurements of the Sensitivity of Fiber-optic Bragg Grating sensors with a Soft Polymeric Coating under mechanical Loading Thermal and Magnetic under Cryogenic Conditions
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Zinc Oxide Nanostructures for NO_2 Gas–Sensor Applications:A Review 被引量:17
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作者 Rajesh Kumar O.Al-Dossary +1 位作者 Girish Kumar Ahmad Umar 《Nano-Micro Letters》 SCIE EI CAS 2015年第2期97-120,共24页
Because of the interesting and multifunctional properties,recently,ZnO nanostructures are considered as excellent material for fabrication of highly sensitive and selective gas sensors.Thus,ZnO nanomaterials are widel... Because of the interesting and multifunctional properties,recently,ZnO nanostructures are considered as excellent material for fabrication of highly sensitive and selective gas sensors.Thus,ZnO nanomaterials are widely used to fabricate efficient gas sensors for the detection of various hazardous and toxic gases.The presented review article is focusing on the recent developments of NO2gas sensors based on ZnO nanomaterials.The review presents the general introduction of some metal oxide nanomaterials for gas sensing application and finally focusing on the structure of ZnO and its gas sensing mechanisms.Basic gas sensing characteristics such as gas response,response time,recovery time,selectivity,detection limit,stability and recyclability,etc are also discussed in this article.Further,the utilization of various ZnO nanomaterials such as nanorods,nanowires,nano-micro flowers,quantum dots,thin films and nanosheets,etc for the fabrication of NO2gas sensors are also presented.Moreover,various factors such as NO2concentrations,annealing temperature,ZnO morphologies and particle sizes,relative humidity,operating temperatures which are affecting the NO2gas sensing properties are discussed in this review.Finally,the review article is concluded and future directions are presented. 展开更多
关键词 ZnO nanostructure Gas sensors sensor parameters sensor mechanism
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Enhanced performance of triboelectric mechanical motion sensor via continuous charge supplement and adaptive signal processing
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作者 Zitang Yuan Xiaosong Zhang +4 位作者 Hengyu Li Ping Shen Jianming Wen Zhong Lin Wang Tinghai Cheng 《Nano Research》 SCIE EI CSCD 2023年第7期10263-10271,共9页
The development of automation industry is inseparable from the progress of sensing technology.As a promising self-powered sensing technology,the durability and stability of triboelectric sensor(TES)have always been in... The development of automation industry is inseparable from the progress of sensing technology.As a promising self-powered sensing technology,the durability and stability of triboelectric sensor(TES)have always been inevitable challenges.Herein,a continuous charge supplement(CCS)strategy and an adaptive signal processing(ASP)method are proposed to improve the lifetime and robustness of TES.The CCS uses low friction brushes to increase the surface charge density of the dielectric,ensuring the reliability of sensing.A triboelectric mechanical motion sensor(TMMS)with CCS is designed,and its electrical signal is hardly attenuated after 1.5 million cycles after reasonable parameter optimization,which is unprecedented in linear TESs.After that,the dynamic characteristics of the CCS-TMMS are analyzed with error rates of less than 1%and 2%for displacement and velocity,respectively,and a signal-to-noise ratio of more than 35 dB.Also,the ASP used a signal conditioning circuit for impedance matching and analog-to-digital conversion to achieve a stable output of digital signals,while the integrated design and manufacture of each hardware module is achieved.Finally,an intelligent logistics transmission system(ILTS)capable of wirelessly monitoring multiple motion parameters is developed.This work is expected to contribute to automation industries such as smart factories and unmanned warehousing. 展开更多
关键词 triboelectric mechanical motion sensor continuous charge supplement adaptive signal processing durability and stability multiple motion parameters monitoring
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用于纤维基可穿戴传感器和电致发光器件的多功能石墨烯/聚电解质水性分散液
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作者 缪振宇 余柔会 +5 位作者 白晓文 杜相恒 杨中华 周涛 朱美芳 潘绍武 《Science China Materials》 SCIE EI CAS CSCD 2024年第6期1915-1925,共11页
导电分散液是构建用于可穿戴传感器、能源和柔性显示器件中导电纤维/织物的关键组成部分.尽管石墨烯具有稳定的化学性质和高电导性,但制备与纤维/织物材料兼容的石墨烯分散液仍然具有挑战性.本研究通过引入聚苯乙烯磺酸钠(PSS)分散剂,... 导电分散液是构建用于可穿戴传感器、能源和柔性显示器件中导电纤维/织物的关键组成部分.尽管石墨烯具有稳定的化学性质和高电导性,但制备与纤维/织物材料兼容的石墨烯分散液仍然具有挑战性.本研究通过引入聚苯乙烯磺酸钠(PSS)分散剂,成功制备了环境友好且稳定的石墨烯水性分散液.PSS通过非共价作用改性石墨烯,使其表面带负电荷,由此产生的静电排斥促进了石墨烯的稳定分散.此外,PSS还有助于石墨烯与基底之间形成牢固的粘附.我们制备了基于石墨烯改性的纤维和纤维膜的柔性机械传感器,包括可拉伸应变传感器和压力传感器;其中,应变传感器具有100%的高拉伸性和144.6的灵敏度,也能够感知0.1%的小应变.此外,制备的柔性生理电极能够长时间记录肌电信号和心电信号.作为概念验证,制备的同轴电致发光纤维能够为潜艇模型提供照明,以完成水下复杂任务.这项工作将进一步推动先进纳米材料在可穿戴领域的应用. 展开更多
关键词 graphene dispersion fibers mechanical sensors wearable display
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Physical sensors for skin-inspired electronics 被引量:15
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作者 Shuo Li Yong Zhang +10 位作者 Yiliang Wang Kailun Xia Zhe Yin Huimin Wang Mingchao Zhang Xiaoping Liang Haojie Lu Mengjia Zhu Haomin Wang Xinyi Shen Yingying Zhang 《InfoMat》 SCIE CAS 2020年第1期184-211,共28页
Skin,the largest organ in the human body,is sensitive to external stimuli.In recent years,an increasing number of skin-inspired electronics,including wearable electronics,implantable electronics,and electronic skin,ha... Skin,the largest organ in the human body,is sensitive to external stimuli.In recent years,an increasing number of skin-inspired electronics,including wearable electronics,implantable electronics,and electronic skin,have been developed because of their broad applications in healthcare and robotics.Physical sensors are one of the key building blocks of skin-inspired electronics.Typical physical sensors include mechanical sensors,temperature sensors,humidity sensors,electrophysiological sensors,and so on.In this review,we systematically review the latest advances of skin-inspired mechanical sensors,temperature sensors,and humidity sensors.The working mechanisms,key materials,device structures,and performance of various physical sensors are summarized and discussed in detail.Their applications in health monitoring,human disease diagnosis and treatment,and intelligent robots are reviewed.In addition,several novel properties of skin-inspired physical sensors such as versatility,self-healability,and implantability are introduced.Finally,the existing challenges and future perspectives of physical sensors for practical applications are discussed and proposed. 展开更多
关键词 electronics skin flexible electronics humidity sensors mechanical sensors temperature sensors wearable sensors
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Recent progress in three-dimensional flexible physical sensors 被引量:3
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作者 Fan Zhang Tianqi Jin +1 位作者 Zhaoguo Xue Yihui Zhang 《International Journal of Smart and Nano Materials》 SCIE EI 2022年第1期17-41,I0002,共26页
Three-dimensional(3D)functional systems are of rapidly growing interest over the past decade,from the perspective of both the fundamental and applied research.In particular,tremendous efforts have been devoted to the ... Three-dimensional(3D)functional systems are of rapidly growing interest over the past decade,from the perspective of both the fundamental and applied research.In particular,tremendous efforts have been devoted to the developments of 3D flexible,physical sensors,partly because of their substantial advantages over planar counterparts in many specific performances.In this review,we summarize recent advances in diverse categories of 3D flexible physical sensors,covering the photoelectric,mechanical,temperature,magnetic,and other physical sensors.This review mainly focuses on their design strategies,working principles and applications.Finally,we offer an outlook on the future developments,and provide perspectives on the remaining challenges and opportunities in this area. 展开更多
关键词 3D photoelectronic sensors 3D mechanical sensors 3D mesostructures physical sensors smart materials
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Effect of Wavelength on Metrological Characteristics of Non-Holographic Fiber Specklegram Sensor 被引量:1
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作者 Victor H. ARISTIZABAL Alejandro HOYOS +2 位作者 Edgar RUEDA Nelson D. GOMEZ Jorge A. GOMEZ 《Photonic Sensors》 SCIE EI CAS CSCD 2015年第1期1-5,共5页
In this paper, we report some results about the effects of varying the wavelength in a structure of a non-holographic fiber specklegram sensor. In these arrangements, the speckle pattern produced by a multi-mode optic... In this paper, we report some results about the effects of varying the wavelength in a structure of a non-holographic fiber specklegram sensor. In these arrangements, the speckle pattern produced by a multi-mode optical fiber is coupled to the asingle-mode optical fiber with lower numerical aperture, which produces a filtering effect that can be used as an optical transduction mechanism. The influence of the wavelength on the sensor performance is evaluated by changing the laser wavelength, and a strong effect on the linearity and reproducibility of its response is found. Lasers emitting at 1310nm, 1550nm, and 1625nm are used. 展开更多
关键词 Optical sensing speckle sensor optical fiber sensor mechanical perturbation sensor
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Emerging carbon-based nanosensor devices:structures,functions and applications
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作者 S.Manzetti D.Vasilache F.Enrichi 《Advances in Manufacturing》 SCIE CAS CSCD 2015年第1期63-72,共10页
Bionanosensors and nanosensors have been devised in recent years with the use of various materials including carbon-based nanomaterials, for applications in diagnostics, environmental science and microelectronics. Car... Bionanosensors and nanosensors have been devised in recent years with the use of various materials including carbon-based nanomaterials, for applications in diagnostics, environmental science and microelectronics. Carbon-based materials are critical for sensing applications, as they have physical and electronic properties which facilitate the detection of substances in solutions, gaseous compounds and pollutants through their conductive prop- erties and resonance-frequency transmission capacities. In this review, a series of recent studies of carbon nanotubes (CNTs) based nanosensors and optical systems are repor- ted, with emphasis on biochemical, chemical and envi- ronmental detection. This study also encompasses a background and description of the various properties of the nanomaterials, and the operation mechanism of the man- ufactured nanosensors. The use of computational chemistry is applied in describing the electronic properties and molecular events of the included nanomaterials during operation. This review shows that resonance-based sensing technologies reach detection limits for gases, such as ammonia down to 10-24 level. The study also shows that the properties of the carbon nanomaterials give them unique features that are critical for designing new sensors based on electrocatalysis and other reactive detection mechanisms. Several research fields can benefit from the described emerging technologies, such as areas of research in environmental monitoring, rapid-on site diagnostics, in situ analyses, and blood and urine sampling in medical and sport industry. Carbon nanomaterials are critical for the operational sensitivity of nanosensors. Considering the low cost of fabrication, carbon nanomaterials can represent an essential step in the manufacturing of tomorrow's commercial sensors. 展开更多
关键词 Nanomaterials.Carbon-based.Graphene .Nanotubes. sensors.Detectors - Quantum mechanics
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Bio-inspired micro/nanostructures for flexible and stretchable electronics 被引量:9
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作者 Hongbian Li Suye Lv Ying Fang 《Nano Research》 SCIE EI CAS CSCD 2020年第5期1244-1252,共9页
The remarkable ability of biological systems to sense and adapt to complex environmental conditions has inspired the design of next-generation electronics with advanced functionalities.This review focuses on emerging ... The remarkable ability of biological systems to sense and adapt to complex environmental conditions has inspired the design of next-generation electronics with advanced functionalities.This review focuses on emerging bio-inspired strategies for the development of flexible and stretchable electronics that can accommodate mechanical deformations and integrate seamlessly with biological systems.We will provide an overview of the practical considerations in the materials and structure designs of flexible and stretchable electronics.Recent progress in bio-inspired pressure/strain sensors,stretchable electrodes,mesh electronics,and flexible energy devices are then discussed,with an emphasis on their unconventional micro/nanostructure designs and advanced functionalities.Finally,current challenges and future perspectives are identified and discussed. 展开更多
关键词 bio-inspired structures mechanical sensors stretchable electrodes mesh electronics flexible energy devices
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Research on the measurement of connecting bars'axial force of JUNO central detector
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作者 Xiaoyu Yang Lei Yang +9 位作者 Wei He Yatian Pei Yuekun Heng Xiaoyan Ma Huafeng Li Kaixi Huang Caishen Wang Yi Li Xiaohui Qian Zhi Wu 《Radiation Detection Technology and Methods》 CSCD 2020年第3期362-371,共10页
Background The Jiangmen Underground Neutrino Observatory(JUNO)is a multipurpose neutrino experiment designed to determine neutrino mass hierarchy and precisely measure oscillation parameters and study the solar neutri... Background The Jiangmen Underground Neutrino Observatory(JUNO)is a multipurpose neutrino experiment designed to determine neutrino mass hierarchy and precisely measure oscillation parameters and study the solar neutrino,supernova neutrino,geo-neutrino,etc.JUNO's central detector(CD)has 20 kilo-ton liquid scintillator as target mass,which is contained by a huge acrylic sphere with the inner diameter of 35.4 m,and the acrylic sphere is supported by a stainless steel structure through 590 connecting bars.Motivation Part of the connecting bars bear pull force and the other bars bear push force.There is a direct relationship between the stress of connecting bars and that of acrylic sphere.For the installation process of the CD,the pretightening force and axial force of the connecting bars should be monitored with accuracy,and for the filling process and running condition,the precise measurement of axial force can indicate the safety of structure of the CD.Methods Statistical method was used to evaluate the performance of measurement schemes,and 4-fiber Bragg grating measurement scheme was determined to be the final scheme,which can get the measurement uncertainty better than 0.7 kN.Performance of different measurement schemes are discussed in detail,and some related finite element analysis and evalu-ation method are also introduced in this paper. 展开更多
关键词 Axial force measuring mechanical sensor FEA Central detector JUNO
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