2019
DOI: 10.1039/c9ra01743g
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Carbon nitride supported Ni0.5Co0.5O nanoparticles with strong interfacial interaction to enhance the hydrolysis of ammonia borane

Abstract: Ni0.5Co0.5O on carbon nitride shows a high TOF value for the hydrolysis of ammonia borane due to the interfacial interaction.

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Cited by 13 publications
(11 citation statements)
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“…Catalysts in various forms have been investigated. Metal organic framework-supported metal nanoparticles [97][98][99], silica-supported bi-/ter-nary composites [100][101][102][103], graphene-containing catalytic materials [104][105][106][107], nitride as active phase supports [108][109][110], cobalt-based alloys and catalysts [111][112][113][114][115], nickel-based systems [116][117][118], supported ruthenium nanostructures [119][120][121][122] and palladium-based materials [123][124][125][126] are examples among the catalysts reported within the last three years. Such efforts have allowed the development of many active heterogeneous catalysts like the rhodium nanoparticles supported over cobalt (II, III) oxide, which attained a turnover frequency of 1800 min −1 and a total of 1.02 × 10 6 turnovers for hydrogen release at 25 • C [127].…”
Section: In Watermentioning
confidence: 99%
“…Catalysts in various forms have been investigated. Metal organic framework-supported metal nanoparticles [97][98][99], silica-supported bi-/ter-nary composites [100][101][102][103], graphene-containing catalytic materials [104][105][106][107], nitride as active phase supports [108][109][110], cobalt-based alloys and catalysts [111][112][113][114][115], nickel-based systems [116][117][118], supported ruthenium nanostructures [119][120][121][122] and palladium-based materials [123][124][125][126] are examples among the catalysts reported within the last three years. Such efforts have allowed the development of many active heterogeneous catalysts like the rhodium nanoparticles supported over cobalt (II, III) oxide, which attained a turnover frequency of 1800 min −1 and a total of 1.02 × 10 6 turnovers for hydrogen release at 25 • C [127].…”
Section: In Watermentioning
confidence: 99%
“…All the above-mentioned findings are also observed in the FTIR spectrum of mpg-CN/Pt nanocatalysts with minor differences. In the FTIR spectrum of each nanocatalyst, the peaks at 1235 and 1313 cm −1 apparently shifted to the higher frequencies, indicating that C−N groups of s-triazine units are in contact with Pt NPs for their stabilization 46 (Figure 5b). These results are consistent with the conclusion reached by the XPS analysis.…”
Section: Resultsmentioning
confidence: 99%
“…On the other hand, low‐valance transition metals such as Ti 2+ can transfer an electron to the dissociated hydrogen atom to H − ions and facilitate the formation of binary hydrides such as alanates and borohydrides. [ 24 ] Experimentally, multivalence Ti was shown to facilitate the electron transfers between Mg 2+ and H − to promote hydrogen sorption in Mg. 13 In the case of complex hydrides, catalysts such as Co have been claimed to facilitate the transfer of electrons between elemental B and H 2 molecules, leading to the formation of B + and H − , which when combined to produce B 2 H 6 can react rapidly with LiH to form LiBH 4 . [ 23 ]…”
Section: Catalysis In Solid‐state Hydrogen Stores: General Mechanismsmentioning
confidence: 99%
“…This shows that Cu is effective for the catalytic hydrolysis of AB. A similar strategy was also adopted for the carbon nitride‐supported Ni 0.5 Co 0.5 O nanoparticles for the hydrolysis of AB [24a] …”
Section: Catalyzed Hydrolysis Of Hydrides: Means To Generate Hydrogenmentioning
confidence: 99%
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