Junwan Bae scite author profile

Junwan Bae

3Publications

18Citation Statements Received

80Citation Statements Given

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Jeonbuk National University

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A bifractal nature of reticular patterns induced by oxygen plasma on polymer films

Bae

Lee

2015

Sci Rep

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Plasma etching was demonstrated to be a promising tool for generating self-organized nano-patterns on various commercial films. Unfortunately, dynamic scaling approach toward fundamental understanding of the formation and growth of the plasma-induced nano-structure has not always been straightforward. The temporal evolution of self-aligned nano-patterns may often evolve with an additional scale-invariance, which leads to breakdown of the well-established dynamic scaling law. The concept of a bifractal interface is successfully applied to reticular patterns induced by oxygen plasma on the surface of polymer films. The reticular pattern, composed of nano-size self-aligned protuberances and underlying structure, develops two types of anomalous dynamic scaling characterized by super-roughening and intrinsic anomalous scaling, respectively. The diffusion and aggregation of short-cleaved chains under the plasma environment are responsible for the regular distribution of the nano-size protuberances. Remarkably, it is uncovered that the dynamic roughening of the underlying structure is governed by a relaxation mechanism described by the Edwards-Wilkinson universality class with a conservative noise. The evidence for the basic phase, characterized by the negative roughness and growth exponents, has been elusive since its first theoretical consideration more than two decades ago.

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Wettability, interface structure, and chemistry in functionalized poly(chloro-para-xylylene) films

Bae

Lee

2014

Applied Surface Science

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Iodine insertion and dispersion of refractive index in organic single crystal semiconductor

Kwon

Bae

Lee

2018

Sci Rep

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Insertion of halogens such as bromine or iodine affects the electronic polarizability of ions and the local field inside the medium, and thus modifies the refractive index. Acquiring precise knowledge of the dispersion of refractive index and ultimately tailoring conventional semiconductors for wide-range refractive index control have been a vital issue to resolve before realizing advanced organic optoelectronic devices. In this report, dispersions of the refractive index of a single crystal tetramethyltetraselenafulvalene [C10H12Se4] (TMTSF) are thoroughly studied from broadband interference modulations of photoluminescence (PL) spectra at various temperatures and doping levels. A large enhancement of the refractive index, more than 20% of the intrinsic value, is achieved with inclusion of a small composition of iodide ions, while the structural and optical properties remain mostly intact. Nearly temperature independent dispersion of the refractive index suggests that, unlike most polymers in which the thermal expansion coefficient dominates over the change of polarizability with temperature, the latter enhances significantly and may become more or less comparable to the thermal expansion coefficient given by 1.71 × 10−4/K, when single crystal TMTSF is doped by iodine.

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Junwan Bae

A bifractal nature of reticular patterns induced by oxygen plasma on polymer films

Wettability, interface structure, and chemistry in functionalized poly(chloro-para-xylylene) films

Iodine insertion and dispersion of refractive index in organic single crystal semiconductor

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