P
Patrick T. Hurley
Researcher at Johnson Controls
Publications - 20
Citations - 1784
Patrick T. Hurley is an academic researcher from Johnson Controls. The author has contributed to research in topics: Anode & Lithium-ion battery. The author has an hindex of 14, co-authored 20 publications receiving 1632 citations. Previous affiliations of Patrick T. Hurley include California Institute of Technology & Air Products & Chemicals.
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Multilayered Si nanoparticle/reduced graphene oxide hybrid as a high-performance lithium-ion battery anode.
Jingbo Chang,Xingkang Huang,Guihua Zhou,Shumao Cui,Peter B. Hallac,Junwei Jiang,Patrick T. Hurley,Junhong Chen +7 more
TL;DR: Multilayered Si/RGO anode nanostructures, featuring alternating Si nanoparticle (NP) and RGO layers, good mechanical stability, and high electrical conductivity, allow Si NPs to easily expand between RGO layer, thereby leading to high reversible capacity.
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Silicon nanotube anode for lithium-ion batteries
Zhenhai Wen,Ganhua Lu,Shun Mao,Haejune Kim,Shumao Cui,Kehan Yu,Xingkang Huang,Patrick T. Hurley,Ou Mao,Junhong Chen +9 more
TL;DR: In this article, a promising strategy for large-scale fabrication of silicon (Si) nanotubes was described, which showed significantly improved rate capability and long-term cycling performance compared with commercial silicon meshes.
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A general approach to one-pot fabrication of crumpled graphene-based nanohybrids for energy applications.
TL;DR: This study provides a new and facile route to fabricating high-performance hybrid CG-nanocrystal electrodes for various energy systems and demonstrates the use of hybrid electrodes of CG-Mn(3)O(4) and CG-SnO(2) in an electrochemical supercapacitor and a lithium-ion battery, respectively.
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Controllable Synthesis of Hollow Si Anode for Long‐Cycle‐Life Lithium‐Ion Batteries
Xingkang Huang,Joseph Yang,Shun Mao,Jingbo Chang,Peter B. Hallac,Christopher R. Fell,Bernhard M. Metz,Junwei Jiang,Patrick T. Hurley,Junhong Chen +9 more
TL;DR: A facile, surfactant-free method to prepare hollow Si with tunable morphology from hollow cubes, spheres, tubes, to fl owers and other shapes is reported.
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A Hierarchical Tin/Carbon Composite as an Anode for Lithium‐Ion Batteries with a Long Cycle Life
Xingkang Huang,Shumao Cui,Jingbo Chang,Peter B. Hallac,Christopher R. Fell,Yanting Luo,Bernhard M. Metz,Junwei Jiang,Patrick T. Hurley,Junhong Chen +9 more
TL;DR: A new hierarchical tin/carbon composite in which some of the nanosized Sn particles are anchored on the tips of carbon nanotubes (CNTs) that are rooted on the exterior surfaces of micro-sized hollow carbon cubes while other Sn nanoparticles are encapsulated in hollowcarbon cubes that exhibits an excellent cyclic performance.