Won Jong Kwon scite author profile

and those measured on PDMS were 100.1 and 77.7. Surface energies of indium tin oxide (ITO) and Alq 3 and interfacial energy from the literature [14] which will bring revolutionary advances in the display technology, owing to attributes such as thin and flexible materials, fast switching times, and low-power consumption. However, current electrochromic technologies need to be improved in order to play moving images due to their slow color-switching rates.[1,2,5±11] Poly(3,4-ethylenedioxythiophene) (PEDOT) and its derivatives are an ideal electrochromic material of conducting polymers for electronic paper due to their good color, mechanical stabilities, and facile fabrication.[5±11] Much work has been performed in order to improve contrast ratios and color switching rates by synthetic approaches.[5±11] It appears, however, that there are no examples of their use in electrochromic displays with moving-image speeds (24 frames/s; switching times of < 40 ms). This is due to the fact that the color-switching rate of PEODT is limited by the diffusion rate of counter-ions into the film during the redox process. The diffusion time, t, of ions required to reach a saturation concentration in a polymer film, that implies switching time, is proportional to the square of film thickness, x: t µ x 2 /D, where D is the diffusion coefficient of an ion in a polymer film. [12,13] Therefore, the simplest way to overcome the slow switching rates is to decrease the diffusion distance of ions, that is, to reduce film thickness. Based on the reported switching time of 2.2 s for a 300 nm thick PEDOT film, [5] we expect the switching time to be approximately 10 ms for a 20 nm thick film. However, the coloration of such a thin film is never sufficient for display applications. An array structure of PEDOT nanotubes provides an attractive solution to both of these limitations, slow switching rates and extent of coloration. Figure 1 explains that the wall thickness of PEDOT nanotubes can provide ions with short COMMUNICATIONS

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Supracolloidal polymer chains of diblock copolymer micelles

Kim

Kwon

Sohn

2015

Chem. Commun.

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The simple and facile methods to improve dispersion stability of nanoparticles: Different chain length alkylcarboxylate mixtures

Piao

Lee

Kwon³

et al. 2009

Journal of Colloid and Interface Science

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Gels from Mixed Ligand Silver(I) Carboxylates: A Promising Approach for Gel Formation Utilizing Surface Modifications

Yoon¹,

Kwon²,

Piao³

et al. 2007

Langmuir

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Mixtures of Ag(hexanoate) and Ag(palmitate) give thermoreversible gels at very low concentration in toluene. The framework of the gel is composed of the branched nanosized fibers, contrary to the microsized wire precipitates of silver(I) carboxylates. The randomness of mixed-ligand silver(I) carboxylate polymeric chains hinders the crystallization process, resulting in very thin fibrils. This may be a new approach to design and control the properties of materials, which do not have properties involving gels or nanostructures in a conventional process.

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Artificial Metalloesterases Constructed by Site-Directed Attachment of Oximinato Metal Centers to Poly(ethylenimine) Containing β-Cyclodextrin

Suh

Kwon²

1998

Bioorganic Chemistry

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Won Jong Kwon

Nanotube‐Based Ultrafast Electrochromic Display

Supracolloidal polymer chains of diblock copolymer micelles

The simple and facile methods to improve dispersion stability of nanoparticles: Different chain length alkylcarboxylate mixtures

Gels from Mixed Ligand Silver(I) Carboxylates: A Promising Approach for Gel Formation Utilizing Surface Modifications

Artificial Metalloesterases Constructed by Site-Directed Attachment of Oximinato Metal Centers to Poly(ethylenimine) Containing β-Cyclodextrin

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