Koki Tsunematsu scite author profile

Koki Tsunematsu

2Publications

11Citation Statements Received

180Citation Statements Given

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173

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Hiroshima University

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Systematic Study on Nitrogen Dissociation and Ammonia Synthesis by Lithium and Group 14 Element Alloys

Shinzato

Tagawa

Tsunematsu

et al. 2022

ACS Appl. Energy Mater.

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The pseudo-catalytic properties of lithium (Li)-based alloys with group 14 elements were investigated for ammonia (NH3) synthesis under ambient conditions. The reaction between the Li alloys and nitrogen (N2) proceeds below 500 °C to form lithium nitride (Li3N). The peak temperature of nitridation was lower in the order of Li4.4Si < Li4.4Ge ≈ Li4.4Pb < Li4.4Sn. The N2 dissociation activity is related to the value of Knight shift observed in the 7Li solid-state magic angle spinning nuclear magnetic resonance (7Li MAS NMR) spectra, indicating that the metallic feature of Li species is an important factor for low-temperature N2 dissociation. Although the reaction yields for NH3 synthesis were depending on the alloys, NH3 was generated at the same temperature around 240 °C because the NH3 formation proceeded by the same reaction between Li3N and hydrogen (H2), generating lithium hydride (LiH) as a by-product. For all the alloys, LiH desorbs H2 to form Li alloys with higher Li composition at lower temperature than that of thermal decomposition of pure LiH. In addition, the conventional catalytic process was also investigated under a mixed gas of H2 and N2. NH3 was synthesized at 150 and 200 °C by using Li4.4Si and Li4.4Ge, respectively.

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Catalysis of Sodium Alloys for Ammonia Synthesis around Atmospheric Pressure

Tsunematsu

Shinzato

et al. 2022

ACS Appl. Energy Mater.

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In this work, catalysis for ammonia production of sodium alloys is systematically investigated. Sodium alloys are synthesized from sodium and group 14 elements and characterized by X-ray diffraction, thermal desorption mass spectroscopy, and nuclear magnetic resonance experiments. The catalytic properties of Na alloys are evaluated by heating alloys under flow conditions of mixed gases of hydrogen and nitrogen. As a result, ammonia can be synthesized on sodium alloys below 400 °C under atmospheric pressure, and catalysis is preserved for more than 100 h. From the above experimental results, it is clarified that the ammonia synthesis temperature and catalysis are related to the thermal stability and metallic feature of sodium atoms in the alloys, respectively. Although the sodium alloys are partially decomposed during the ammonia synthesis process, the higher partial pressure of hydrogen would suppress the decomposition. The obtained results indicate that Na alloys are potential ammonia synthesis catalysts.

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Koki Tsunematsu

Systematic Study on Nitrogen Dissociation and Ammonia Synthesis by Lithium and Group 14 Element Alloys

Catalysis of Sodium Alloys for Ammonia Synthesis around Atmospheric Pressure

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