Microscopic characterization of metal-carbon-hydrogen composites (metal = Li, Mg)

Isobe, Shigehito; Yamada, Sumito; Wang, Yongming; Hashimoto, Naoyuki; Ohnuki, Somei; Miyaoka, Hiroki; Ichikawa, Takayuki; Kojima, Yoshitsugu

doi:10.1063/1.4820455

Cited by 3 publications

(3 citation statements)

References 30 publications

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“…the hydridic H in the solid solution is an electron source for continued N 2 reduction and perhaps also for the activation of C for subsequent C–N coupling. The involvement of hydride species in carbon reduction has also been identified in previous reports [ 36 ].…”

Section: Resultssupporting

confidence: 63%

Synthesis of pyrimidines from dinitrogen and carbon

Shi

Qin

et al. 2022

National Science Review

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The element nitrogen and nitrogenous compounds are vital to life. The synthesis of nitrogen-containing compounds using dinitrogen as the nitrogen source, not through ammonia, is of great interest and great value but remains a grand challenge. Herein, we describe a strategy to realize this transformation by combining the heterogeneous approach with the homogeneous methodology. The N2 molecule was first fixed with carbon and LiH through a one-pot heterogeneous process, forming Li2CN2 as an ‘activated’ nitrogen source with high efficiency. Then subsequent homogeneous treatments of Li2CN2 to construct the organic synthon carbodiimide and the RNA/DNA building block pyrimidines were fulfilled. By using 15N2 as the feedstock, their corresponding 15N-labeled carbodiimide and pyrimidines were readily obtained. This homogeneous-heterogeneous synergy strategy will open a new chapter for N2 transformation.

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Section: Resultssupporting

confidence: 63%

Synthesis of pyrimidines from dinitrogen and carbon

Shi

Qin

et al. 2022

National Science Review

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“…Miyaoka et al [7] studied hydrogen sorption properties of (Li þ 2C) ground mixture and revealed that the hydrogenated Ligraphite sample desorbed only H 2 from 150 C with a complex mechanism since Li 2 C 2 , LiH and LiC 12 were present after desorption. Thereafter, Isobe et al [8] carried out microscopic characterization for these hydrogenated/dehydrogenated Li-graphite samples and indicated that LiH was generated at the edge site of graphite.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of destabilized nanostructured lithium hydride via hydrogenation of lithium electrochemically inserted into graphite

Huang

Bonnet

Zlotea

et al. 2015

International Journal of Hydrogen Energy

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“…Current research in clean energy can be characterized by the considerable effort taken to promote clean energy technologies that do not produce CO 2 exhaust. It is believed that H 2 is a promising source of clean energy, and many attempts have been made to overcome the barriers to make it a feasible energy source. , One of the most important hurdles that needs to be overcome is finding an effective method to store H 2 . − To date, the methods investigated for this purpose can be categorized in three groups: (i) absorption of H 2 in alloys, − (ii) physisorption onto large surfaces, − and (iii) liquid organic hydrogen carriers (LOHC). , Among these methods, research into H 2 absorption in alloys has a long history, and the related knowledge has accumulated to a considerable level.…”

Section: Introductionmentioning

confidence: 99%

Hydrogen Storage in Porous Single-Walled Carbon Nanohorns Dispersed with Pd–Ni Alloy Nanoparticles

2014

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Single-walled carbon nanohorns containing Pd−Ni alloy nanoparticles (Pd−Ni/SWCNHs) were prepared by the gas-injected arc-in-water method, and high-pressure H 2 absorption by these nanoparticles was investigated using a magnetic suspension balance at 30 °C and 1.2 MPa. The amount of H 2 absorbed by them was larger than the predicted combined absorption contributed by Pd−Ni alloy and pure-carbon SWCNHs. This synergetic H 2 absorption was induced by the combination of Pd−Ni alloy nanoparticles and SWCNHs and occurred because of a spillover effect. Remarkably, H 2 absorption occurred by diffusing into as-grown Pd−Ni/ SWCNHs. Opening the pores of Pd−Ni/SWCNHs by a mild oxidation treatment drastically improved the H 2 absorption. Consequently, the diffusivity of H 2 into Pd−Ni/SWCNHs was enhanced to the point where H 2 absorption could reach saturation in an extremely short time.

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Microscopic characterization of metal-carbon-hydrogen composites (metal = Li, Mg)

Cited by 3 publications

References 30 publications

Synthesis of pyrimidines from dinitrogen and carbon

Synthesis of pyrimidines from dinitrogen and carbon

Synthesis of destabilized nanostructured lithium hydride via hydrogenation of lithium electrochemically inserted into graphite

Hydrogen Storage in Porous Single-Walled Carbon Nanohorns Dispersed with Pd–Ni Alloy Nanoparticles

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