Formation of Uniform Water Microdroplets on Wrinkled Graphene for Ultrafast Humidity Sensing

Zhen, Zhen; Li, Zechen; Zhao, Xuanliang; Zhong, Yanqiang; Zhang, Li; Qiao, Chen; Yang, Tingting; Zhu, Hongwei

doi:10.1002/smll.201703848

Cited by 127 publications

(88 citation statements)

References 52 publications

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“…Breath monitoring is vital in some cases, for example, during sleep to avoid lethal sleep apnea, which is difficult to diagnose. [55] Compare with other breath sensors based on responding to humidity, [56][57][58] the SSCNT-based yarn is easier to be integrated in cloth, thus providing a facile choice for wearable breath monitoring.…”

Section: Doi: 101002/adma202000165mentioning

confidence: 99%

Stable and Biocompatible Carbon Nanotube Ink Mediated by Silk Protein for Printed Electronics

et al. 2020

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Ink‐based processes, which enable scalable fabrication of flexible devices based on nanomaterials, are one of the practical approaches for the production of wearable electronics. However, carbon nanotubes (CNTs), which possess great potential for flexible electronics, are facing challenges for use in inks due to their low dispersity in most solvents and suspicious cytotoxicity. Here, a stable and biocompatible CNT ink, which is stabilized by sustainable silk sericin and free from any artificial chemicals, is reported. The ink shows stability up to months, which can be attributed to the formation of sericin–CNT (SSCNT) hybrid through non‐covalent interactions. It is demonstrated that the SSCNT ink can be used for fabricating versatile circuits on textile, paper, and plastic films through various techniques. As proofs of concept, electrocardiogram electrodes, breath sensors, and electrochemical sensors for monitoring human health and activity are fabricated, demonstrating the great potential of the SSCNT ink for smart wearables.

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Section: Doi: 101002/adma202000165mentioning

confidence: 99%

Stable and Biocompatible Carbon Nanotube Ink Mediated by Silk Protein for Printed Electronics

et al. 2020

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“…Respiration rate is one of the vital signs and directly relates to the condition of respiratory organs. In order to detect respiration rate remotely, several types of portable respiration sensors have been proposed [10][11][12][13][14][15][16][17] . Colloidal nanomaterial films are promising as a humidity-sensitive film to detect respiration 18,19 .…”

mentioning

confidence: 99%

All-Painting Process To Produce Respiration Sensor Using Humidity-Sensitive Nanoparticle Film and Graphite Trace

Kano

Fujii

2018

ACS Sustainable Chem. Eng.

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We propose an all-painting process to produce a respiration sensor made from a humiditysensitive nanoparticle (NP) film and a graphite trace. The sensor is fabricated under ambient air with a simple vacuum-free process for green electronics: solely hand-painting on a cellulose acetate film. A humidity-sensitive silica NP film is painted by brush on pencil-trace graphite electrodes. An all-painted humidity sensor using this film shows 10 6 % sensitivity within a 10-93% humidity change. The film is flexible and the humidity sensor operates as a respiration sensor after bending test. We design an all-painted respiration sensor using the humidity sensor

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“…Nowadays, severe contamination issue caused by industrial chemicals, consumer products, and biocides threatens the security of human and other creatures. Environmental monitoring is one essential approach to detect the environment change, such as temperature, [229][230][231] light, [232][233][234][235][236] humidity, [237][238][239][240][241] pH, [242][243][244] heavy metal ion, [245] volatile organics, [246] gas, [247][248][249] etc., so Figure 13. a) Fabrication of electrolyte and electrode for the flour-based one-stop supercapacitor.…”

Section: Environmental Sensors: From Naturementioning

confidence: 99%

The Evolution of Flexible Electronics: From Nature, Beyond Nature, and To Nature

et al. 2020

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The flourishing development of multifunctional flexible electronics cannot leave the beneficial role of nature, which provides continuous inspiration in their material, structural, and functional designs. During the evolution of flexible electronics, some originated from nature, some were even beyond nature, and others were implantable or biodegradable eventually to nature. Therefore, the relationship between flexible electronics and nature is undoubtedly vital since harmony between nature and technology evolution would promote the sustainable development. Herein, materials selection and functionality design for flexible electronics that are mostly inspired from nature are first introduced with certain functionality even beyond nature. Then, frontier advances on flexible electronics including the main individual components (i.e., energy (the power source) and the sensor (the electric load)) are presented from nature, beyond nature, and to nature with the aim of enlightening the harmonious relationship between the modern electronics technology and nature. Finally, critical issues in next-generation flexible electronics are discussed to provide possible solutions and new insights in prospective exploration directions.

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Formation of Uniform Water Microdroplets on Wrinkled Graphene for Ultrafast Humidity Sensing

Cited by 127 publications

References 52 publications

Stable and Biocompatible Carbon Nanotube Ink Mediated by Silk Protein for Printed Electronics

Stable and Biocompatible Carbon Nanotube Ink Mediated by Silk Protein for Printed Electronics

All-Painting Process To Produce Respiration Sensor Using Humidity-Sensitive Nanoparticle Film and Graphite Trace

The Evolution of Flexible Electronics: From Nature, Beyond Nature, and To Nature

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