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Philseok Kim
Researcher at Wyss Institute for Biologically Inspired Engineering
Publications - 71
Citations - 8828
Philseok Kim is an academic researcher from Wyss Institute for Biologically Inspired Engineering. The author has contributed to research in topics: Layer (electronics) & Wetting. The author has an hindex of 35, co-authored 71 publications receiving 7276 citations. Previous affiliations of Philseok Kim include Harvard University & Seoul National University.
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Journal ArticleDOI
Liquid-Infused Nanostructured Surfaces with Extreme Anti-Ice and Anti-Frost Performance
Philseok Kim,Tak Sing Wong,Jack Alvarenga,Michael J. Kreder,Wilmer E. Adorno-Martinez,Joanna Aizenberg +5 more
TL;DR: Results indicate that SLIPS is a promising candidate for developing robust anti-icing materials for broad applications, such as refrigeration, aviation, roofs, wires, outdoor signs, railings, and wind turbines.
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Design of anti-icing surfaces: smooth, textured or slippery?
TL;DR: Different strategies to achieve ice repellency on various hydrophilic and hydrophobic surfaces are reviewed with a focus on the recent development of superhydrophobic and lubricant-infused surfaces.
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High energy density nanocomposites based on surface-modified BaTiO(3) and a ferroelectric polymer.
Philseok Kim,Natalie M. Doss,John P. Tillotson,Peter J. Hotchkiss,Ming-Jen Pan,Seth R. Marder,Jiangyu Li,Jeffery P Calame,Joseph W. Perry +8 more
TL;DR: Comparisons with model calculations indicate the important roles of nanoparticle percolation and porosity of the nanocomposites on the dielectric properties, and the calculated maximum energy densities indicate maximal extractable energy for two different particle volume fractions.
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Condensation on slippery asymmetric bumps
Kyoo-Chul Park,Philseok Kim,Alison Grinthal,Neil He,David A. Fox,James C. Weaver,Joanna Aizenberg,Joanna Aizenberg +7 more
TL;DR: In this paper, a design approach based on principles derived from Namib desert beetles, cacti, and pitcher plants is proposed to maximize vapour diffusion flux at the apex of convex millimetric bumps by optimizing the radius of curvature and cross-sectional shape.
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Phosphonic Acid-Modified Barium Titanate Polymer Nanocomposites with High Permittivity and Dielectric Strength
Philseok Kim,Simon C. Jones,Peter J. Hotchkiss,Joshua N. Haddock,Bernard Kippelen,Seth R. Marder,Joseph W. Perry +6 more
TL;DR: In this article, a set of ligands, each bearing an aliphatic octyl chain with a different terminal binding group, was used to modify the surface of barium titanate (BT) nanoparticles.