Freestanding Silicon Nanowires Mesh for Efficient Electricity Generation from Evaporation-Induced Water Capillary Flow
Beibei Shao,Yanfei Wu,Zheheng Song,Haiwei Yang,Xin Chen,Yatao Zou,Jiaqing Zang,Fan Yang,Tao Song,Yusheng Wang,Mingwang Shao,Baoquan Sun +11 more
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This article is published in Social Science Research Network.The article was published on 2022-01-01. It has received 12 citations till now.read more
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Self-powered illuminating glucose sensor
Huding Jin,Won Hyung Lee,Yongbeom Cho,Junghyup Han,Changik Im,Seung Ju Yu,Lianghui Li,Jaewon Lee,Zhenxing Yin,Youn Sang Kim +9 more
TL;DR: In this paper , a self-powered illuminating glucose sensor with high sensitivity and selectivity and a wide detection range (0.61 V·M -1 ) was demonstrated using the electricity generated from the water infiltration into a glycine-coated porous CuO nanowires film.
Journal ArticleDOI
Boosting electrical output of nanostructured silicon hydrovoltaic device via cobalt oxide enabled electrode surface contact
Beibei Shao,Chunfang Xing,Yuhang Song,Conghui Jiang,Gui-Lin Bai,Tao Song,Ruiyuan Liu,Yusheng Wang,Baoquan Sun +8 more
TL;DR: In this article , a high-efficiency silicon nanowire (SiNW) arrays-based hydrovoltaic device featuring a cobalt oxide (CoOx) layer between the top electrode and SiNWs was reported.
Journal ArticleDOI
Electricity Generation from Phase Transitions between Liquid and Gaseous Water
TL;DR: The ubiquitous and spontaneous phase transitions between liquid and gaseous water contain substantial energy that can be harvested by emerging hydrovoltaic technologies, including evaporation induced generators (EIGs) and moisture-induced generators (MIGs), featuring the virtues of ubiquity, spontaneity, and direct current output as discussed by the authors .
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Integrated Moist-Thermoelectric Generator for Efficient Waste Steam Energy Utilization.
TL;DR: In this article , a two-in-one strategy was proposed that combines thermoelectric and moist-electric generation mechanisms for a highly efficient flexible moist-thermoelectrically generator (MTEG).
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Rational design of oriented glass fibers within nano-porous SiO2 films to improve evaporation-induced hydroelectric generation
Tianyu Liu,Yaru Zheng,Cai Xia Hao,Wenqing Hong,Fengxuan Wang,Hao Jang,Yanjie Hu,Chunzhong Li +7 more
TL;DR: In this article , an enhanced output was generated by the rational design of oriented glass fibers within nano-porous SiO2 film, which could effectively improve the power generation performance by promoting the movement of water flow and carriers, achieving an induced open-circuit voltage of 1.4 V and an induced shortcircuit current of 400 nA.
References
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TL;DR: Simulations of the behaviour of water encapsulated in carbon nanotubes suggest the existence of a variety of new ice phases not seen in bulk ice, and of a solid–liquid critical point beyond which the distinction between solid and liquid phases disappears.
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TL;DR: It is found that evaporation from centimetre-sized carbon black sheets can reliably generate sustained voltages of up to 1 V under ambient conditions.
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Induced-Charge Electrokinetic Phenomena: Theory and Microfluidic Applications
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TL;DR: The general, physical description of "induced-charge electro-osmosis" (ICEO), the nonlinear electrokinetic slip at a polarizable surface, is given in the context of some new techniques for microfluidic pumping and mixing.
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Power generation by pressure-driven transport of ions in nanofluidic channels.
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