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Scalably Nanomanufactured Atomically Thin Materials‐Based Wearable Health Sensors
Ruifang Zhang,Jing Jiang,Wenzhuo Wu +2 more
- pp 2100120
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The article was published on 2021-11-23 and is currently open access. It has received 11 citations till now.read more
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Element-Doped Mxenes: Mechanism, Synthesis, and Applications.
TL;DR: In this article , the authors comprehensively and critically discuss the syntheses, properties, and emerging applications of the growing family of heteroatom-doped MXenes materials, and present future opportunities and challenges for the study and application of multifunctional high-performance MXenes.
Journal ArticleDOI
Stress-deconcentrated ultrasensitive strain sensor with hydrogen-bonding-tuned fracture resilience for robust biomechanical monitoring
Yizhuo Yang,Wenjie Tang,Jinyi Wang,Ruiqiang Li,Ping Yang,Shisheng Chen,Yuehui Yuan,Jing-feng Xu,Xueyang Ren,Shancheng Yu,Hao Wu,Yunfan Zhou,Leili Zhai,Xiaodong Shao,Zenan Chen,Benhui Hu +15 more
TL;DR: In this article , a stress-deconcentrated ultra-sensitive strain (SDUS) sensor with ultrahigh sensitivity (gauge factor up to 2.3 × 106) and a wide working range (0% −50%) via incorporating notch-insensitive elastic substrate and micro-crack-tunable conductive layer was developed.
Journal ArticleDOI
Recent advances in multifunctional materials for gas sensing applications
TL;DR: A comprehensive overview of the recent achievements in the application of sensors for different gas detection and indicates the current challenges and future outlooks in this field is provided in this paper , where a wide discussion of various materials-based gas sensors in near future can be attached to the Internet of Things to develop more rigid and highly sensitive gas leakage detectors to avoid accident risks and health threats.
Journal ArticleDOI
Curvilinear soft electronics by micromolding of metal nanowires in capillaries
TL;DR: In this paper , a micromolding-based method is reported for scalable printing of metal nanowires, which enables complex and highly conductive patterns on soft curvilinear and uneven substrates with high resolution and uniformity.
Journal ArticleDOI
High Throughput In–Situ Temperature Sensor Array with High Sensitivity and Excellent Linearity for Wireless Body Temperature Monitoring
Lei Chen,Xingye Yao,Xingchi Liu,Zewei Luo,Changqing Ye,Chen-Yong Huang,Chaolun Wang,Chunhua Cai,Liangjian Lyu,Xing Wu,Hengchang Bi +10 more
TL;DR: In this paper , a flexible temperature sensor based on a porous graphene/polydimethylsiloxane sensing layer is developed, which exhibits high sensitivity of 5.203%°C−1 for temperature sensing between 30 and 70°C, and excellent linearity (R2
References
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A Platform for Large‐Scale Graphene Electronics – CVD Growth of Single‐Layer Graphene on CVD‐Grown Hexagonal Boron Nitride
Min Wang,Sung Kyu Jang,Won-Jun Jang,Minwoo Kim,Seongyong Park,Sang-Woo Kim,Se-Jong Kahng,Jae-Young Choi,Rodney S. Ruoff,Young Jae Song,Sungjoo Lee +10 more
TL;DR: This sequentially grown graphene/h-BN film shows better electronic properties than that of graphene/SiO2 or graphene transferred on h-BNFilm, and suggests a new promising template for graphene device fabrication.
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Self-Activated Transparent All-Graphene Gas Sensor with Endurance to Humidity and Mechanical Bending
Yeon Hoo Kim,Sang Jin Kim,Yong-Jin Kim,Yong-Jin Kim,Yeong-Seok Shim,Soo Young Kim,Byung Hee Hong,Ho Won Jang +7 more
TL;DR: The all-graphene gas sensors which consist of graphene for both sensor electrodes and active sensing area exhibit highly sensitive, selective, and reversible responses to NO2 without external heating.
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EMG signal decomposition: how can it be accomplished and used?
TL;DR: Techniques exist for the decomposition of an EMG signal into its constituent components and the fundamental composition of EMG signals is explained and after, potential sources of information from and various uses of decomposed EMg signals are described.
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Rapid and Versatile Photonic Annealing of Graphene Inks for Flexible Printed Electronics
TL;DR: Intense pulsed light (IPL) annealing of graphene inks is demonstrated for rapid post-processing of inkjet-printed patterns on various substrates, establishing this strategy as a practical and effective approach for the versatile and high-performance integrated graphene in printed and flexible electronics.