Susumu Toko scite author profile

CO2 methanation can be a key technology for realizing a sustainable society. CH4 is used as an energy carrier and raw material for chemical products, thereby contributing to the reduction of CO2 emissions. Methanation with plasma catalysis lower the process temperature, which can improve the throughput and stability. In this study, we investigated the effect of the gas flow rate and the discharge volume on CO2 methanation, using a low- pressure CCP reactor. Higher gas flow rates can increase the rate of CO2 throughput, but the CH4 selectivity decreases owing to the reduced transportation rate of the reactants to the catalyst surface. Increasing the discharge volume is effective in improving the transportation rate. This study suggested that the structure of the reactor significantly affect the CH4 generation rate.

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Effects of filter gap of cluster-eliminating filter on cluster eliminating efficiency

Hashimoto

Toko

Yamashita

et al. 2014

J. Phys.: Conf. Ser.

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Low-Pressure Methanation of CO₂ Using a Plasma–Catalyst System

Toko¹,

Tanida²,

Koga³

et al. 2018

sci adv mater

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Electron Microscopy Study of Binary Nanocolloidal Crystals with ico-AB₁₃ Structure Made of Monodisperse Silica Nanoparticles

et al. 2014

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Binary nanocolloidal crystals (BNCCs) made of two different nanoparticles are a promising new class of advanced functional materials with synergetic and collective properties. These materials have been shown to exhibit excellent structural diversity and a wide range of different stoichiometries. In this study, BNCCs with an ico-AB13 structure were prepared as inorganic bulk materials by simple solvent evaporation of silica nanocolloidal aqueous solutions. Systematic analysis of Fourier diffractograms of high-resolution transmission electron microscopy (HRTEM) images shows the reflection conditions of the space group Fm3̅c without any ambiguities, which is indicative of the ico-AB13 structure. Simulated HRTEM images based on the ideal ico-AB13 structure were also calculated under the kinematical scattering approximation. These images showed the characteristic fine structure of the ico-AB13 structure along the high-symmetry axes. The agreement between the observed and simulated HRTEM images indicates the validity of the ideal ico-AB13 model structure. This result shows that HRTEM together with a quantitative image simulation is a versatile method for the characterization of the BNCCs at the nanoscale and can be routinely applied for any nanocolloidal crystals, even for complex structures.

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Susumu Toko

Contribution of ionic precursors to deposition rate of a-Si:H films fabricated by plasma CVD

Effect of gas flow rate and discharge volume on CO₂ methanation with plasma catalysis

Effects of filter gap of cluster-eliminating filter on cluster eliminating efficiency

Low-Pressure Methanation of CO₂ Using a Plasma–Catalyst System

Electron Microscopy Study of Binary Nanocolloidal Crystals with ico-AB₁₃ Structure Made of Monodisperse Silica Nanoparticles

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Susumu Toko

Contribution of ionic precursors to deposition rate of a-Si:H films fabricated by plasma CVD

Effect of gas flow rate and discharge volume on CO2 methanation with plasma catalysis

Effects of filter gap of cluster-eliminating filter on cluster eliminating efficiency

Low-Pressure Methanation of CO2 Using a Plasma–Catalyst System

Electron Microscopy Study of Binary Nanocolloidal Crystals with ico-AB13 Structure Made of Monodisperse Silica Nanoparticles

Contact Info

Product

Resources

About

Effect of gas flow rate and discharge volume on CO₂ methanation with plasma catalysis

Low-Pressure Methanation of CO₂ Using a Plasma–Catalyst System

Electron Microscopy Study of Binary Nanocolloidal Crystals with ico-AB₁₃ Structure Made of Monodisperse Silica Nanoparticles