highly sensitive and stretchable multidimensional

Highly Stretchable and Transparent Ionic Conductor with

Highly stretchable and transparent ionic conducting materials have enabled new concepts of electronic devices denoted as iontronics with a distinguishable working mechanism and performances from the conventional electronics However the existing ionic conducting materials can hardly bear the humidity and temperature change of our daily life which has greatly hindered the development and

3D Graphene Films Enable Simultaneously High Sensitivity

Ashok Chhetry Md Sharifuzzaman Hyosang Yoon Sudeep Sharma Xing Xuan Jae Yeong Park MoS 2 -Decorated Laser-Induced Graphene for a Highly Sensitive Hysteresis-free and Reliable Piezoresistive Strain Sensor ACS Applied Materials Interfaces 10 1021/acsami 9b04915 (2019)

A graphene rheostat for highly durable and stretchable

Aug 18 20191 INTRODUCTION Strain sensors are the key components in wearable electronic devices because of their ability to convert external mechanical deformations to easily detectable electrical signals which have been developed for a wide range of applications in advanced robotics 1-3 personal health monitors 4-12 human‐machine interfaces 13 14 and replacement prosthetic devices 15 16 In

Highly Stretchable All

Jul 23 2019The development of stretchable smart electronics has attracted great attentions due to their potential applications in human motions energy collection systems and self-powered biomechanical tracking technologies Here we present a newly stretchable all-rubber-based thread-shaped triboelectric nanogenerator (TENG) composed of the silver-coated glass microspheres/silicone rubber as the

Highly stretchable and autonomously healable epidermal

Herein a highly stretchable and healable somatosensory platform with excellent low temperature tolerance was demonstrated by adopting self-healing hydrogels as building blocks Both metal-coordinated bonds and tetrahedral borate interactions within the binary-networked frameworks account for the satisfactory stretchability (∼550%

Highly sensitive strain sensors based on fragmentized

Apr 12 2018Kim K K Hong S Cho H M Lee J Suh Y D Ham J and Ko S H 2015 Highly sensitive and stretchable multidimensional strain sensor with prestrained anisotropic metal nanowire percolation networks Nano Lett 15 5240–7 Crossref Google Scholar

A low

Mar 19 2018Strain sensors with high stretchability broad strain range high sensitivity and good reliability are desirable owing to their promising applications in electronic skins and human motion monitoring systems In this paper we report a high-performance strain sensor based on printable and stretchable electrically conductive elastic composites This strain sensor is fabricated by mixing silver

Monolithic 3D printing of embeddable and highly

Jun 17 2019Liu C Han S Xu H Wu J and Liu C 2018 Multifunctional highly sensitive multiscale stretchable strain sensor based on a graphene/glycerol-KCl synergistic conductive network ACS Appl Mater Interfaces 10 31716–24 Crossref Google Scholar

Flexible and Stretchable Electronics Paving the Way for

stretch and conform to 3D shapes such as an egg (upper frame) and map-applied pressure distribution (lower frame) 52 (C) A bendable E-skin based on PSR integrated with inorganic nanowire-array FETs 54 (D) Highly sensitive capacitive pressure-sensor array operated by OFET capable of detecting the touch of a bluebottle fly (3 Pa) 56 (E)

Preparation of a Highly Sensitive and Stretchable Strain

Nov 12 2019As a wearable device highly sensitive and stretchable strain sensors should be integrated to monitor various daily actions which include large- and small-scale strains such as jumping running heartbeat and pulse At present the method of preparing strain sensors is mainly to impregnate or load materials like graphene carbon nanotube and their union products on elastic substrates to

A graphene rheostat for highly durable and stretchable

Aug 18 2019Here we report a new strategy to make a class of highly durable and stretchable strain sensors by assembling partially overlapped graphene sheets into a macroscopic network with a tunable density of intermittent physical interconnections As described in the previous studies because of the lack of the three‐dimensional structural

Highly sensitive and stretchable piezoresistive strain

Feb 01 2018Yan et al reported a highly stretchable graphene-nanocellulose nanopaper that could stretch out to strain but the GF of the strain sensor was still less than 7 1 Very recently Park et al reported a highly flexible wrinkled carbon nanotube thin

A wearable highly stable strain and bending sensor based

Aug 03 2016Kim K K Hong S Cho H M Lee J Suh Y D Ham J and Ko S H 2015 Highly sensitive and stretchable multidimensional strain sensor with prestrained anisotropic metal nanowire percolation networks Nano Lett 15 5240–7 Crossref

Highly sensitive and stretchable strain sensors based on

In this paper a highly stretchable and sensitive strain sensor with a low-cost fabrication is proposed which is acquired by embedding the chopped carbon fibers sandwiched in between silicone rubber layers The electrical and mechanical features of the sensor were characterized through stretch/release loading tests where a considerably high

Skin

Skin-inspired highly stretchable and conformable matrix networks for multifunctional sensing Qilin Hua1 2 3 Junlu Sun1 highly sensitive detections for different stimuli are not The stretching test is performed on a one-dimensional meandering interconnect utilizing a customized stretch-testing platform (inset of Fig 2a) and a

A graphene rheostat for highly durable and stretchable

Aug 18 20191 INTRODUCTION Strain sensors are the key components in wearable electronic devices because of their ability to convert external mechanical deformations to easily detectable electrical signals which have been developed for a wide range of applications in advanced robotics 1-3 personal health monitors 4-12 human‐machine interfaces 13 14 and replacement prosthetic devices 15 16 In

Highly Stretchable and Transparent Ionic Conductor with

Highly stretchable and transparent ionic conducting materials have enabled new concepts of electronic devices denoted as iontronics with a distinguishable working mechanism and performances from the conventional electronics However the existing ionic conducting materials can hardly bear the humidity and temperature change of our daily life which has greatly hindered the development and

Highly Stretchable Elastic and Sensitive MXene

Research Article Highly Stretchable Elastic and Sensitive MXene-Based Hydrogel for Flexible Strain and Pressure Sensors Yao Lu 1 Xinyu Qu 1 Wen Zhao 1 Yanfang Ren 2 Weili Si 1 Wenjun Wang 2 Qian Wang 1 Wei Huang 3 and Xiaochen Dong 1 4 1Key Laboratory of Flexible Electronics (KLOFE) Institute of Advanced Materials (IAM) School of Physical and Mathematical Sciences Nanjing Tech

Highly sensitive and selective multidimensional resistive

Highly stretchable strain sensors that are capable of collecting complex multi-axial multidimensional strain information in real time are crucial in practical applications for human motion detection Here we present a highly sensitive and selective multidimensional resistive strain sensor based on a monolit

Figure 5 from Highly Sensitive and Very Stretchable Strain

DOI: 10 1021/acsami 7b17709 Corpus ID: 206478007 Highly Sensitive and Very Stretchable Strain Sensor Based on a Rubbery Semiconductor article{Kim2018HighlySA title={Highly Sensitive and Very Stretchable Strain Sensor Based on a Rubbery Semiconductor } author={Hae Jin Kim and Anish Thukral and Cunjiang Yu} journal={ACS applied materials interfaces} year={2018} volume={10 5}

A highly stretchable transparent and conductive polymer

Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite approaches Routes toward intrinsically stretchable molecular materials remain scarce but if successful will enable simpler fabrication processes such as direct printing and coating mechanically robust devices and more intimate contact with objects We report a highly stretchable conducting

3D Graphene Films Enable Simultaneously High Sensitivity

Ashok Chhetry Md Sharifuzzaman Hyosang Yoon Sudeep Sharma Xing Xuan Jae Yeong Park MoS 2 -Decorated Laser-Induced Graphene for a Highly Sensitive Hysteresis-free and Reliable Piezoresistive Strain Sensor ACS Applied Materials Interfaces 10 1021/acsami 9b04915 (2019)