Se‐Ho Kim scite author profile

Photoelectrochemical water splitting is a promising route to produce hydrogen from solar energy. However, corrosion of photoelectrodes remains a fundamental challenge for their implementation. Here, we reveal different dissolution behaviors of BiVO 4 photoanode in pH-buffered borate, phosphate, and citrate (hole-scavenger) electrolytes, studied in operando employing an illuminated scanning flow cell. We demonstrate that decrease in photocurrents alone does not reflect the degradation of photoelectrodes. Changes in dissolution rates correlate to the evolution of surface chemistry and morphology. The correlative measurements on both sides of the liquid–semiconductor junction provide quantitative comparison and mechanistic insights into the degradation processes.

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A new method for mapping the three-dimensional atomic distribution within nanoparticles by atom probe tomography (APT)

Kim

Kang

Park

et al. 2018

Ultramicroscopy

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Enabling near-atomic–scale analysis of frozen water

et al. 2020

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Transmission electron microscopy went through a revolution enabling routine cryo-imaging of biological and (bio)chemical systems, in liquid form. Yet, these approaches typically lack advanced analytical capabilities. Here, we used atom probe tomography to analyze frozen liquids in three dimensions with subnanometer resolution. We introduce a specimen preparation strategy using nanoporous gold. We report data on 2- to 3-μm-thick layers of ice formed from both high-purity deuterated water and a solution of 50 mM NaCl in high-purity deuterated water. The analysis of the gold-ice interface reveals a substantial increase in the solute concentrations across the interface. We explore a range of experimental parameters to show that atom probe analyses of bulk aqueous specimens come with their own challenges and discuss physical processes that produce the observed phenomena. Our study demonstrates the viability of using frozen water as a carrier for near-atomic–scale analysis of objects in solution by atom probe tomography.

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Atomic‐Scale Mapping of Impurities in Partially Reduced Hollow TiO₂ Nanowires

et al. 2020

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The incorporation of impurities during the chemical synthesis of nanomaterials is usually uncontrolled and rarely reported because of the formidable challenge in measuring trace amounts of often light elements with sub‐nanometer spatial resolution. And yet, these foreign elements (introduced by doping, for example) influence functional properties. We demonstrate how the hydrothermal growth and a partial reduction reaction on hollow TiO2 nanowires leads to the introduction of parts per millions of boron, sodium, and nitrogen. This doping explains the presence of oxygen vacancies and reduced Ti states at the surface, which enhance the functional properties of TiO2. Our results were obtained on model metal oxide nanomaterials and they shed light on a general process that leads to the uncontrolled incorporation of trace impurities in TiO2, thereby, having a strong effect on applications in energy‐harvesting.

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Se‐Ho Kim

Influence of microstructure and atomic-scale chemistry on the direct reduction of iron ore with hydrogen at 700°C

Different Photostability of BiVO₄ in Near-pH-Neutral Electrolytes

A new method for mapping the three-dimensional atomic distribution within nanoparticles by atom probe tomography (APT)

Enabling near-atomic–scale analysis of frozen water

Atomic‐Scale Mapping of Impurities in Partially Reduced Hollow TiO₂ Nanowires

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Resources

About

Se‐Ho Kim

Influence of microstructure and atomic-scale chemistry on the direct reduction of iron ore with hydrogen at 700°C

Different Photostability of BiVO4 in Near-pH-Neutral Electrolytes

A new method for mapping the three-dimensional atomic distribution within nanoparticles by atom probe tomography (APT)

Enabling near-atomic–scale analysis of frozen water

Atomic‐Scale Mapping of Impurities in Partially Reduced Hollow TiO2 Nanowires

Contact Info

Product

Resources

About

Different Photostability of BiVO₄ in Near-pH-Neutral Electrolytes

Atomic‐Scale Mapping of Impurities in Partially Reduced Hollow TiO₂ Nanowires