H
Harry J. Ploehn
Researcher at University of South Carolina
Publications - 105
Citations - 8729
Harry J. Ploehn is an academic researcher from University of South Carolina. The author has contributed to research in topics: Dielectric & Polymer. The author has an hindex of 33, co-authored 105 publications receiving 7262 citations. Previous affiliations of Harry J. Ploehn include Princeton University & East Carolina University.
Papers
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Journal ArticleDOI
Electrophoretic analysis and purification of fluorescent single-walled carbon nanotube fragments.
Xiaoyou Xu,Robert Ray,Yunlong Gu,Harry J. Ploehn,Latha A. Gearheart,Kyle Raker,Walter A. Scrivens +6 more
TL;DR: Arc-synthesized single-walled carbon nanotubes have been purified through preparative electrophoresis in agarose gel and glass bead matrixes and promise to be interesting nanomaterials in their own right.
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Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation
Hang Li,Zhuonan Song,Xiaojie Zhang,Yi Huang,Shiguang Li,Yating Mao,Harry J. Ploehn,Yu Bao,Miao Yu +8 more
TL;DR: In this paper, the authors reported ultrathin graphene oxide (GO) membranes, with thickness approaching 1.8 nm, which showed mixture separation selectivities as high as 3400 and 900 for H2/CO2 and H2 /N2 mixtures, respectively, through selective structural defects on GO.
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Polymer Composite and Nanocomposite Dielectric Materials for Pulse Power Energy Storage
Peter Barber,Shiva Balasubramanian,Yogesh Kumar Anguchamy,Shushan Gong,Arief Wibowo,Hongsheng Gao,Harry J. Ploehn,Hans-Conrad zur Loye +7 more
TL;DR: In this article, a review summarizes the current state of polymer composites used as dielectric materials for energy storage, focusing on materials: polymers serving as the matrix, inorganic fillers used to increase the effective dielectrics constant, and various recent investigations of functionalization of metal oxide fillers to improve compatibility with polymers.
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Solvent Diffusion Model for Aging of Lithium-Ion Battery Cells
TL;DR: In this paper, the authors present a model of solvent diffusion describing the growth of solid-electrolyte interfaces (SEIs) in Li-ion cells incorporating carbon anodes, and use it to estimate SEI thickness and extract solvent diffusivity values from the capacity loss data.