Kanta Ogawa scite author profile

A new one-step method for the light and electron microscopic localization of the ouabain-sensitive, K-dependent p-nitrophenylphosphatase (K-NPPase) activity of the Na-K-ATPase complex is introduced. The incubation medium contains p-nitrophenylphosphate (NPP) as substrate, lead citrate as the capture reagent, and dimethylsulfoxide (DMSO) as an activator. It is usable at the optimal pH of the K-NPPase, which is about pH 9.0 in the presence of 25% of DMSO. The effects of fixation, lead concentration, and DMSO on the enzyme activity were studied using rat kidney as a test tissue. The fixation of tissues in a mixture of 2% paraformaldehyde and 0.5% glutaraldehyde for 60 min at 0 degrees--4 degrees C preserved 45% of the enzyme activity. In the absence of DMSO, lead citrate (4.0 mM) caused 82% inhibition of the enzyme activity in fixed tissue. However, the addition of DMSO (25%) caused about 3-fold activation of the remaining activity. Cytochemical demonstration of the ouabain-sensitive K-NPPase activity was successfully made by this method at both light and electron microscopic levels.

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Flux Synthesis of Layered Oxyhalide Bi₄NbO₈Cl Photocatalyst for Efficient Z-Scheme Water Splitting Under Visible Light

Ogawa

Nakada

Suzuki

et al. 2018

ACS Appl. Mater. Interfaces

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An oxyhalide photocatalyst BiNbOCl has recently been proven to stably oxidize water under visible light, enabling the Z-scheme water splitting when coupled with another photocatalyst for water reduction. We herein report the synthesis of BiNbOCl particles via a flux method, testing various molten salts to improve its crystallinity and hence photocatalytic activity. The eutectic mixture of CsCl/NaCl with a low melting point allowed the formation of single-phase BiNbOCl at as low as 650 °C. Thus, synthesized BiNbOCl particles exhibited a well-grown and plate-like shape while maintaining surface area considerably higher than those grown with others fluxes. They showed three times higher O evolution rate under visible light than the samples prepared via a solid-state reaction. Time-resolved microwave conductivity measurements revealed greater signals (approximately 4.8 times) owing to the free electrons in the conduction band, indicating much improved efficiency of carrier generation and/or its mobility. The loading of RuO or Pt cocatalyst on BiNbOCl further enhanced the activity for O evolution because of efficient capturing of free electrons, facilitating the surface chemical reactions. In combination with a H-evolving photocatalyst Ru/SrTiO:Rh along with an Fe/Fe redox mediator, the RuO/BiNbOCl is an excellent O-evolving photocatalyst, exhibiting highly effective water splitting into H and O via the Z-scheme.

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Layered Perovskite Oxyiodide with Narrow Band Gap and Long Lifetime Carriers for Water Splitting Photocatalysis

et al. 2021

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The development of semiconductors with narrow band gap and high stability is crucial for achieving solar to chemical energy conversion. Compounds with iodine, which has a high polarizability, have attracted attention because of their narrow band gap and long carrier lifetime, as typified by halide perovskite solar cells; however, they have been regarded as unsuitable for harsh photocatalytic water splitting because iodine is prone to self-oxidation. Here, we demonstrate that Ba2Bi3Nb2O11I, a layered Sillén–Aurivillius oxyiodide, not only has access to a wider range of visible light than its chloride and bromide counterparts, but also functions as a stable photocatalyst, efficiently oxidizing water. Density functional theory calculations reveal that the oxygen 2p orbitals in the perovskite block, rather than the fluorite Bi2O2 block as previously pointed out, anomalously push up the valence band maximum, which can be explained by a modified Madelung potential analysis that takes into account the high polarizability of iodine. In addition, the highly polarizable iodide contributes to longer carrier lifetime of Ba2Bi3Nb2O11I, allowing for a significantly higher quantum efficiency than its chloride and bromide counterparts. Visible-light-driven Z-scheme water splitting was achieved for the first time in an iodine-based system using Ba2Bi3Nb2O11I as an oxygen-evolution photocatalyst. The present study provides a novel approach for incorporating polarizable “soft” anions into building blocks of layered materials to manipulate the band structure and improve the carrier dynamics for visible-light responsive functions.

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Synthesis, band structure and photocatalytic properties of Sillén–Aurivillius oxychlorides BaBi₅Ti₃O₁₄Cl, Ba₂Bi₅Ti₄O₁₇Cl and Ba₃Bi₅Ti₅O₂₀Cl with triple-, quadruple- and quintuple-perovskite layers

et al. 2021

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Kanta Ogawa

A new one-step method for the cytochemical localization of ouabain-sensitive, potassium-dependent p-nitrophenylphosphatase activity

Flux Synthesis of Layered Oxyhalide Bi₄NbO₈Cl Photocatalyst for Efficient Z-Scheme Water Splitting Under Visible Light

Layered Perovskite Oxyiodide with Narrow Band Gap and Long Lifetime Carriers for Water Splitting Photocatalysis

Synthesis, band structure and photocatalytic properties of Sillén–Aurivillius oxychlorides BaBi₅Ti₃O₁₄Cl, Ba₂Bi₅Ti₄O₁₇Cl and Ba₃Bi₅Ti₅O₂₀Cl with triple-, quadruple- and quintuple-perovskite layers

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Kanta Ogawa

A new one-step method for the cytochemical localization of ouabain-sensitive, potassium-dependent p-nitrophenylphosphatase activity

Flux Synthesis of Layered Oxyhalide Bi4NbO8Cl Photocatalyst for Efficient Z-Scheme Water Splitting Under Visible Light

Layered Perovskite Oxyiodide with Narrow Band Gap and Long Lifetime Carriers for Water Splitting Photocatalysis

Synthesis, band structure and photocatalytic properties of Sillén–Aurivillius oxychlorides BaBi5Ti3O14Cl, Ba2Bi5Ti4O17Cl and Ba3Bi5Ti5O20Cl with triple-, quadruple- and quintuple-perovskite layers

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Flux Synthesis of Layered Oxyhalide Bi₄NbO₈Cl Photocatalyst for Efficient Z-Scheme Water Splitting Under Visible Light

Synthesis, band structure and photocatalytic properties of Sillén–Aurivillius oxychlorides BaBi₅Ti₃O₁₄Cl, Ba₂Bi₅Ti₄O₁₇Cl and Ba₃Bi₅Ti₅O₂₀Cl with triple-, quadruple- and quintuple-perovskite layers