L
Liangbing Hu
Researcher at University of Maryland, College Park
Publications - 550
Citations - 82907
Liangbing Hu is an academic researcher from University of Maryland, College Park. The author has contributed to research in topics: Anode & Carbon nanotube. The author has an hindex of 128, co-authored 480 publications receiving 61244 citations. Previous affiliations of Liangbing Hu include Park University & University of California, Los Angeles.
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Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control
Hui Wu,Gerentt Chan,Jang Wook Choi,Jang Wook Choi,Ill Ryu,Yan Yao,Matthew T. McDowell,Seok Woo Lee,Ariel Jackson,Yuan Yang,Liangbing Hu,Yi Cui,Yi Cui +12 more
TL;DR: It is shown that anodes consisting of an active silicon nanotube surrounded by an ion-permeable silicon oxide shell can cycle over 6,000 times in half cells while retaining more than 85% of their initial capacity.
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Scalable Coating and Properties of Transparent, Flexible, Silver Nanowire Electrodes
TL;DR: In this paper, a comprehensive study of transparent and conductive silver nanowire (Ag NW) electrodes, including a scalable fabrication process, morphologies, and optical, mechanical adhesion, and flexibility properties, and various routes to improve the performance.
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Emerging Transparent Electrodes Based on Thin Films of Carbon Nanotubes, Graphene, and Metallic Nanostructures
TL;DR: This review will explore the materials properties of transparent conductors, covering traditional metal oxides and conductive polymers initially, but with a focus on current developments in nano-material coatings.
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Negating interfacial impedance in garnet-based solid-state Li metal batteries
Xiaogang Han,Yunhui Gong,Kun Kelvin Fu,Xingfeng He,Gregory T. Hitz,Jiaqi Dai,Alexander J. Pearse,Boyang Liu,Howard Wang,Gary W. Rubloff,Yifei Mo,Venkataraman Thangadurai,Eric D. Wachsman,Liangbing Hu +13 more
TL;DR: Experimental and computational results reveal that the oxide coating enables wetting of metallic lithium in contact with the garnet electrolyte surface and the lithiated-alumina interface allows effective lithium ion transport between the lithium metal anode and garnets electrolyte.
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Stretchable, Porous, and Conductive Energy Textiles
Liangbing Hu,Mauro Pasta,Fabio La Mantia,Lifeng Cui,Sangmoo Jeong,Heather Dawn Deshazer,Jang Wook Choi,Seung Min Han,Yi Cui +8 more
TL;DR: Wearable power devices using everyday textiles as the platform, with an extremely simple "dipping and drying" process using single-walled carbon nanotube (SWNT) ink, are described, which show outstanding flexibility and stretchability and demonstrate strong adhesion between the SWNTs and the textiles of interest.