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Literature DB >> 31290869

Anchoring carbon nanotubes and post-hydroxylation treatment enhanced Ni nanofiber catalysts towards efficient hydrous hydrazine decomposition for effective hydrogen generation.

Pan Yang¹, Lijun Yang¹, Qiang Gao², Qiang Luo³, Xiaochong Zhao¹, Xianmin Mai⁴, Qinglong Fu¹, Mengyao Dong⁵, Jingchuan Wang¹, Yawei Hao¹, Ruizhu Yang¹, Xinchun Lai¹, Shide Wu⁶, Qian Shao⁷, Tao Ding⁸, Jing Lin⁹, Zhanhu Guo¹⁰.

Abstract

For effective hydrogen generation with remarkable durability, carbon nanotubes (CNTs) grown on Ni nanofibers and their post hydroxylation treatment engendered active Ni nanofiber catalysts an efficient decomposition of hydrous hydrazine with a turnover frequency (TOF) of 19.4 h-1 and an activation energy down to 51.05 KJ mol-1.

Entities: Chemical

Year: 2019 PMID： 31290869 DOI： 10.1039/c9cc04559g

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

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3. Boosting Visible-Light Photocatalytic Redox Reaction by Charge Separation in SnO₂ /ZnSe(N₂ H₄ )_0.5 Heterojunction Nanocatalysts.

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3 in total

Anchoring carbon nanotubes and post-hydroxylation treatment enhanced Ni nanofiber catalysts towards efficient hydrous hydrazine decomposition for effective hydrogen generation.

1. Reversibly switching water droplets wettability on hierarchical structured Cu2S mesh for efficient oil/water separation.

2. Dextran mediated MnFe2O4/ZnS magnetic fluorescence nanocomposites for controlled self-heating properties.

3. Boosting Visible-Light Photocatalytic Redox Reaction by Charge Separation in SnO2 /ZnSe(N2 H4 )0.5 Heterojunction Nanocatalysts.

1. Reversibly switching water droplets wettability on hierarchical structured Cu₂S mesh for efficient oil/water separation.

2. Dextran mediated MnFe₂O₄/ZnS magnetic fluorescence nanocomposites for controlled self-heating properties.

3. Boosting Visible-Light Photocatalytic Redox Reaction by Charge Separation in SnO₂ /ZnSe(N₂ H₄ )_0.5 Heterojunction Nanocatalysts.