Doo Hee Cho scite author profile

The regulation of water content in polymeric membranes is important in a number of applications, such as reverse electrodialysis and proton-exchange fuel-cell membranes. External thermal and water management systems add both mass and size to systems, and so intrinsic mechanisms of retaining water and maintaining ionic transport in such membranes are particularly important for applications where small system size is important. For example, in proton-exchange membrane fuel cells, where water retention in the membrane is crucial for efficient transport of hydrated ions, by operating the cells at higher temperatures without external humidification, the membrane is self-humidified with water generated by electrochemical reactions. Here we report an alternative solution that does not rely on external regulation of water supply or high temperatures. Water content in hydrocarbon polymer membranes is regulated through nanometre-scale cracks ('nanocracks') in a hydrophobic surface coating. These cracks work as nanoscale valves to retard water desorption and to maintain ion conductivity in the membrane on dehumidification. Hydrocarbon fuel-cell membranes with surface nanocrack coatings operated at intermediate temperatures show improved electrochemical performance, and coated reverse-electrodialysis membranes show enhanced ionic selectivity with low bulk resistance.

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Highly conductive and durable poly(arylene ether sulfone) anion exchange membrane with end-group cross-linking

Lee

Cho

Kim

et al. 2017

Energy Environ. Sci.

258

122

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Durable Sulfonated Poly(benzothiazole-co-benzimidazole) Proton Exchange Membranes

Wang

Lee

et al. 2014

Macromolecules

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Two series of random sulfonated poly-(benzothiazole-co-benzimidazole) polymers (sPBT-BI) with 70% and 60% degree of sulfonation were evaluated as proton exchange membranes. sPBT was also prepared for a comparative study. The mechanical properties of sPBT-BI were greatly enhanced by incorporation of benzimidazole (BI); sPBT-BI70-10 showed a tensile strength of 125 MPa and elongation at break of 38.9%, an increase of 56.5% and 145%, respectively, compared with sPBT. The solubility, dimensional stability, thermal properties, and oxidative stability of sPBT-BI were also improved. The ionic clusters of sPBT-BI membranes in both AFM phase images and TEM images became narrower with increasing amounts of BI while containing the same molar amount of sulfonic acid groups. This resulted in lower dimensional swelling and higher mechanical strength, but the proton conductivity decreased. However, high proton conductivity was achieved by incorporating an appropriate content of BI. PEMFC H 2 /air single cell performances and durabilities were improved by incorporation of 5% of BI units in sPBT.

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A Light Scattering Layer for Internal Light Extraction of Organic Light-Emitting Diodes Based on Silver Nanowires

Lee

Shin

Park

et al. 2016

ACS Appl. Mater. Interfaces

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We propose and fabricate a random light scattering layer for light extraction in organic light-emitting diodes (OLEDs) with silver nanodots, which were obtained by melting silver nanowires. The OLED with the light scattering layer as an internal light extraction structure was enhanced by 49.1% for the integrated external quantum efficiency (EQE). When a wrinkle structure is simultaneously used for an external light extraction structure, the total enhancement of the integrated EQE was 65.3%. The EQE is maximized to 65.3% at a current level of 2.0 mA/cm(2). By applying an internal light scattering layer and wrinkle structure to an OLED, the variance in the emission spectra was negligible over a broad viewing angle. Power mode analyses with finite difference time domain (FDTD) simulations revealed that the use of a scattering layer effectively reduced the waveguiding mode while introducing non-negligible absorption. Our method offers an effective yet simple approach to achieve both efficiency enhancement and spectral stability for a wide range of OLED applications.

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Effect of cationic groups in poly(arylene ether sulfone) membranes on reverse electrodialysis performance

et al. 2017

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Effect of end-group cross-linking on transport properties of sulfonated poly(phenylene sulfide nitrile)s for proton exchange membranes

Lee

Shin

et al. 2016

Journal of Power Sources

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Dually cross-linked polymer electrolyte membranes for direct methanol fuel cells

Lee

Shin

et al. 2015

Journal of Power Sources

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21.1: Invited Paper: Effect of Channel/Insulator Interface Formation Process on the Oxide TFT Performance

Park

Hwang

Cho

et al. 2009

Symp Digest of Tech Papers

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Since the first demonstration of oxide TFT driving AM‐OLED, oxide TFT technology has attracted explosive interesting and has been developed for the mass production. The performance of oxide TFT has been verified and the remained issue is bias temperature stability. In this paper, we report the effect of interface process including channel and back channel on the oxide TFT performance in a top gate and a bottom gate structure. We also demonstrate transparent AM‐OLED driven by highly stable Al doped ZTO TFT.

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Doo Hee Cho

Nanocrack-regulated self-humidifying membranes

Highly conductive and durable poly(arylene ether sulfone) anion exchange membrane with end-group cross-linking

Durable Sulfonated Poly(benzothiazole-co-benzimidazole) Proton Exchange Membranes

A Light Scattering Layer for Internal Light Extraction of Organic Light-Emitting Diodes Based on Silver Nanowires

Effect of cationic groups in poly(arylene ether sulfone) membranes on reverse electrodialysis performance

Effect of end-group cross-linking on transport properties of sulfonated poly(phenylene sulfide nitrile)s for proton exchange membranes

Dually cross-linked polymer electrolyte membranes for direct methanol fuel cells

21.1: Invited Paper: Effect of Channel/Insulator Interface Formation Process on the Oxide TFT Performance

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