Dae-Woong Hwang scite author profile

The faradaic reaction at the insulator is counterintuitive. For this reason, electroorganic reactions at the dielectric layer have been scarcely investigated despite their interesting aspects and opportunities. In particular, the cathodic reaction at a silicon oxide surface under a negative potential bias remains unexplored. In this study, we utilize defective 200-nm-thick n+-Si/SiO2 as a dielectric electrode for electrolysis in an H-type divided cell to demonstrate the cathodic electroorganic reaction of anthracene and its derivatives. Intriguingly, the oxidized products are generated at the cathode. The experiments under various conditions provide consistent evidence supporting that the electrochemically generated hydrogen species, supposedly the hydrogen atom, is responsible for this phenomenon. The electrogenerated hydrogen species at the dielectric layer suggests a synthetic strategy for organic molecules.

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Band gap narrowing of TiO2 nanoparticles: A passivated Co-doping approach for enhanced photocatalytic activity

Na-Phattalung

Harding

Pattanasattayavong

et al. 2022

Journal of Physics and Chemistry of Solids

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Enhanced H₂ Evolution at Patterned MoS_x-Modified Si-Based Photocathodes by Incorporating the Interfacial 3D Nanostructure of Ag

Seo

Kim

Hwang

et al. 2021

ACS Appl. Mater. Interfaces

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Photoelectrochemical cells represent one of the promising ways to renewably produce hydrogen (H2) as a future chemical fuel. The design of a catalyst/semiconductor junction for the hydrogen evolution reaction (HER) requires various factors for high performance. In catalytic materials, an intrinsic activity with fast charge-transfer kinetics is important. Additionally, their thermodynamic property and physical adhesion should be compatible with the underlying semiconductor for favorable band alignment and stability during vigorous H2 bubble formation. Moreover, catalysts, especially non-noble materials that demand a large amount of loading, should be adequately dispersed on the semiconductor surface to allow sufficient light absorption to generate excitons. One of the methods to simultaneously satisfy these conditions is to adopt an interfacial layer between the semiconductor and active materials in HER. The interfacial layer efficiently extracts the electrons from the semiconductor and conveys those to the catalytically active surface. We demonstrate Ag as a 3D interfacial nanostructure of patterned MoS x catalysts for photoelectrochemical HER. The nanostructured porous Ag layer was introduced by a simple chemical process, followed by photoelectrochemical deposition of MoS x to form MoS x /Ag nanostructures in cross-shaped catalyst pattern arrays. Ag modulated the surface electronic property of MoS x to improve the reaction kinetics as well as helped a charge transport at the Ag|p-Si(100) junction. The physically stable adhesion of catalysts was also achieved despite the ∼40 nm thick catalysts owing to the interfacial Ag nanostructure. This work contributes to further understand the complex multistep HER from light absorption to charge transfer to protons, helping to develop cost-effective and efficient photocathodes.

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Polarization-sensitive beam steering from quantum emitters coupled with birefringent metamaterials

et al. 2018

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One-dimensional metal/dielectric subwavelength periodic patterns have dielectric or metallic material dispersions depending on the polarization of incident light. This feature enables the development of artificial, ultrathin, birefringent films. In this study, we report polarization-sensitive beam steering from quantum emitters coupled with one-dimensional metal/dielectric metamaterial films. Electromagnetic simulations show that an Al/ITO metamaterial film functioning as a quarter-wave plate leads to vertically directed radiation for one polarization and a saddle-shaped, diverging radiation pattern for the orthogonal polarization. The strategy studied herein is extended to achieve polarized, vertically directed emission from organic light-emitting diodes. A tailored Al/ITO metamaterial mirror yields an approximately 30-fold improvement in polarization ratio, in conjunction with polarization-dependent Purcell factor enhancement.

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Dae-Woong Hwang

Recent advances in electrochemical non-enzymatic glucose sensors – A review

Cathodic electroorganic reaction on silicon oxide dielectric electrode

Band gap narrowing of TiO2 nanoparticles: A passivated Co-doping approach for enhanced photocatalytic activity

Enhanced H₂ Evolution at Patterned MoS_x-Modified Si-Based Photocathodes by Incorporating the Interfacial 3D Nanostructure of Ag

Polarization-sensitive beam steering from quantum emitters coupled with birefringent metamaterials

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Dae-Woong Hwang

Recent advances in electrochemical non-enzymatic glucose sensors – A review

Cathodic electroorganic reaction on silicon oxide dielectric electrode

Band gap narrowing of TiO2 nanoparticles: A passivated Co-doping approach for enhanced photocatalytic activity

Enhanced H2 Evolution at Patterned MoSx-Modified Si-Based Photocathodes by Incorporating the Interfacial 3D Nanostructure of Ag

Polarization-sensitive beam steering from quantum emitters coupled with birefringent metamaterials

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Enhanced H₂ Evolution at Patterned MoS_x-Modified Si-Based Photocathodes by Incorporating the Interfacial 3D Nanostructure of Ag