FIBER

作品数:1771被引量:2890H指数:16
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High‑Energy-Density Fiber Supercapacitors Based on Transition Metal Oxide Nanoribbon Yarns for Comprehensive Wearable Electronics
《Advanced Fiber Materials》2024年第6期1927-1941,共15页Junseong Ahn Suchithra Padmajan Sasikala Yongrok Jeong Jin Goo Kim Ji‑Hwan Ha Soon Hyoung Hwang Sohee Jeon Junhyuk Choi Byung‑Ho Kang Jihyeon Ahn Jun‑Ho Jeong Sang Ouk Kim Inkyu Park 
financially supported by the National Creative Research Initiative(CRI)Center for Multi-Dimensional Directed Nanoscale Assembly(2015R1A3A2033061);a Creative Challenge research grant(RS-2023-00248902)through the National Research Foundation of Korea(NRF),funded by the Ministry of Science;supported by the Collabo R&D between Industry,Academy,and Research Institute(RS-2024-00428937)funded by the Ministry of SMEs and Startups(MSS,Korea);This study was also supported by the Development Program of Machinery and Equipment Industrial Technology(20018235,Development of an inline nanoimprinter for nanophotonic device)funded by the Ministry of Trade,Industry,&Energy(MI,Korea),the Ministry of Culture,Sports,and Tourism,and the Korea Creative Content Agency(Project Number:R2022020033);It was also supported by a National Research Foundation of Korea(NRF)grant funded by the Korean government(MSIT)(No.2021R1A2C3008742).
Fiber supercapacitors(FSs)based on transition metal oxides(TMOs)have garnered considerable attention as energy stor-age solutions for wearable electronics owing to their exceptional characteristics,including superior ...
关键词:Fiber supercapacitor Transition metal oxide Nanoribbon yarn Wearable devices NANOSTRUCTURING 
Durable and Wearable Self-powered Temperature Sensor Based on Self-healing Thermoelectric Fiber by Coaxial Wet Spinning Strategy for Fire Safety of Firefighting Clothing
《Advanced Fiber Materials》2024年第5期1387-1401,共15页Qing Jiang Yuhang Wan Yi Qin Xueru Qu Mi Zhou Siqi Huo Xiaochun Wang Zhicai Yu Hualing He 
the funding support from Guiding Project of Natural Science Foundation of Hubei Province(2022CFC072);Guiding Project of Scientific Research Plan of Education Department of Hubei Province(B2022081);Science and Technology Guidance Program of China National Textile and Apparel Council(2022002,2023004).
Self-healable electronics with self-recoverable mechanical properties show a lot of potential in improving the reliability and durability of wearable electronic devices,but it is still challenging.Herein,a self-healin...
关键词:Core-sheath thermoelectric fiber Self-powered sensor High-temperature warning SELF-HEALING Coaxial wet spinning 
Fiber Science at Xinjiang University:A Special Issue Dedicated to Centennial Celebration of Xinjiang University
《Advanced Fiber Materials》2024年第5期1253-1255,共3页Qiang Yao 
To celebrate Xinjiang University’s 100th anniversary,a special issue will be launched by the faculty and alumni of Xinjiang University.It will highlight the university’s profound contributions to the field of fiber ...
关键词:FIBER fibers continued 
Calcium–Oxygen Fiber Batteries for Next‑Generation Wearables
《Advanced Fiber Materials》2024年第4期937-939,共3页Yue‑E Miao Tianxi Liu 
Fiber batteries that can be woven into textiles are attractive as flexible power solutions to supply future wearable electronics.A rechargeable calcium–oxygen(Ca–O2)battery which can operate at room temperature has ...
关键词:Calcium–oxygen battery Two-electron redox chemistry Fiber batteries Next-generation wearables 
Revolutionizing Wearable:Multicolored Photochromic Fiber Opens New Frontiers in Human–Machine Interaction被引量:1
《Advanced Fiber Materials》2024年第3期619-621,共3页Jing Zhang Zhigang Xia Perry Ping Shum 
Substantial challenges remain in developing fiber devices to achieve uniform and customizable photochromic lighting effects using lightweight hardware.A recent publication in Light Science&Application,spearheaded by P...
关键词:Multicolored photochromic fiber Wearable device Fiber thermal drawing process Human–machine interaction 
Phase Inversion‑Based Microfluidic‑Fiber‑Spinning Assembly of Self‑Supported rGO/PEDOT FiberFabrics Towards Wearable Supercapacitors被引量:1
《Advanced Fiber Materials》2024年第3期798-809,共12页Liangliang Zhou Yujiao Zhang Hui Qiu Jijun Xiao Su Chen Yong Liu 
supported by National Natural Science Foundation of China(11572160,22278225).
The demand for wearable electronics is still growing,and the rapid development of new electrochemical materials and manufacturing processes allows for innovative approaches to power these devices.Here,three-dimensiona...
关键词:Phase inversion Microfluidic-fiber-spinning assembly Fiber fabrics Wearable supercapacitors 
Non‑Enzyme,Temperature Calibrating,and Bioactive Fiber‑based Flexible Sensors for Dopamine and Lactic Acid Detection被引量:1
《Advanced Fiber Materials》2024年第2期501-511,共11页Maowen Xie Guang Yao Xingyi Gan Chunhong Zhang Tianyao Zhang Qian Wang Xinqin Li Chenzheng Zhou Kangning Zhao Min Gao Taisong Pan Yuan Lin 
supported by the National Natural Science Foundation of China under Grant numbers 61825102,62371115,62001096,U21A20460,52021001;Science and Technology Major Project of Tibetan Autonomous Region of China under grant no.XZ202201ZD0001G;and the Medico-Engineering Cooperation Funds,Fundamental Research Funds for the Central Universities,UESTC under Grant nos.ZYGX2020ZB041,ZYGX2021YGLH002,and ZYGX2021YGLH007.
Flexible electrochemical biosensors enable the in-situ monitoring and quantification of human biochemical constituents in molecular scale,spearheading and thriving the field toward precision medicine.However,specific ...
关键词:Bioactive fiber Electrochemical selectivity DOPAMINE Lactic acid Temperature calibration SENSOR 
High Thermoelectric Performance and Flexibility in Rationally Treated PEDOT:PSS Fiber Bundles
《Advanced Fiber Materials》2024年第2期607-618,共12页Ting Wu Xiao‑Lei Shi Wei‑Di Liu Meng Li Fang Yue Pei Huang Qingfeng Liu Zhi‑Gang Chen 
supported by the National Natural Science Foundation of China(No.52272040);the State Key Laboratory of Materials-Oriented Chemical Engineering program(SKL-MCE-23A04);the Jiangsu Specially Appointed Professor Program.
Organic thermoelectric fibers have great potential as wearable thermoelectric textiles because of their one-dimensional structure and high flexibility.However,the insufficient thermoelectric performance,high fabricati...
关键词:THERMOELECTRIC PEDOT:PSS FIBER Flexible device 
A Self‑Regenerable Fiber Sloughing Its Heavy Metal Skin for Ultrahigh Separation Capability
《Advanced Fiber Materials》2023年第6期2127-2142,共16页Youngkyun Jung Ji Su Park Kyung‑Won Jung Young Gun Ko Jae‑Woo Choi 
the National R&D program through the National Research Foundation of Korea(NRF)funded by the Ministry of Science and ICT(MSIT)(No.2020M3H4A3106366 and RS-2023-00209565);by an institutional program grant(2E32442)From the Korea Institute of Science and Technology.
Developing efficient separation materials for recovering metal resources from aqueous environments is crucial for the sustainable water–food–energy nexus,which addresses the interdependence between energy production...
关键词:Self-regeneration model Self-regenerable fiber Semi-permanent adsorption capability Metal crystal growth-detachment 
Thermally Drawn Multi‑material Fibers Based on Polymer Nanocomposite for Continuous Temperature Sensing被引量:4
《Advanced Fiber Materials》2023年第5期1712-1724,共13页Woo Mi Ryu Yunheum Lee Yeonzu Son Geonho Park Seongjun Park 
supported by National Research Foundation of Korea(NRF)funded by the Ministry of Science and ICT(2021M3F3A2A01037365,RS-2023-00207970);KAINEET Institute Seed Money Project,Post-AI Research Institute.
With increasing personalized healthcare,fiber-based wearable temperature sensors that can be incorporated into textiles have attracted more attention in the field of wearable electronics.Here,we present a flexible,wel...
关键词:Fiber temperature sensor Wearable device Thermal drawing process Multi-material thermal drawing conductive polymer composite 
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