Halloysite nanotube-based cobalt mesocatalysts for hydrogen production from sodium borohydride

Vinokurov V.; Stavitskaya A.; Glotov A.; Ostudin A.; Sosna M.; Gushchin P.; Darrat Y.; Lvov Y.

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Halloysite nanotube-based cobalt mesocatalysts for hydrogen production from sodium borohydride

机译：基于Halloysite Nanotube的钴Mesocatalys用于硼氢化钠的氢气生产

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摘要

We report the novel hybrid metal-clay mesocatalysts with halloysite nanotubes as carriers and cobalt as catalytic metal for hydrogen production from sodium borohydride. The ligand assisted metal adsorption on the surface of halloysite and intercalation into nanotubes was achieved using azines or silane. The catalyst with pre-formed cobalt oxide nanoparticles adsorption on the pristine halloysite surface showed low catalytic efficiency. The most active cobalt-containing system was formed using ketazine as the ligand. The chelating agent selection strongly affected the hydrogen evolution process and was optimized. The best halloysite based core-shell mesocatalyst contained 16 wt% of cobalt with maximum hydrogen evolution rate of 3 L/minxg(cat).

机译：我们将新型杂交金属 - 粘土Mesocatysts用Halloysite Nanotubes作为载体和钴作为催化金属作为催化金属，用于硼氢化钠产生。使用吖嗪或硅烷达到霍利石表面和嵌入到纳米管表面上的配体辅助金属吸附。具有预先形成的钴氧化物纳米颗粒的催化剂在原始的霍氏表面上吸附的催化效率低。使用酮碱作为配体形成最活跃的含钴的系统。螯合剂选择强烈影响氢进化过程并进行了优化。基于最好的霍利石核心 - 壳Mesocatalyst包含16wt％的钴，最大氢进化率为3升/米克斯（猫）。

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来源
《Journal of Solid State Chemistry》 |2018年第2018期|共8页
作者
Vinokurov V.; Stavitskaya A.; Glotov A.; Ostudin A.; Sosna M.; Gushchin P.; Darrat Y.; Lvov Y.;
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作者单位

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

Louisiana Tech Univ Inst Micromfg Ruston LA 71272 USA;

I Gubkin Russian State Univ Oil &

Gas Dept Phys &

Colloid Chem Moscow Russia;

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原文格式 PDF
正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Nanotubes; Surface-modification; Cobalt nanoparticles; Mesoporous catalysis; Sodium borohydride; Halloysite;

机译：纳米管;表面改性;钴纳米粒子;介孔催化;硼氢化钠;霍罗伊斯矿;

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2. Release rate kinetics of corrosion inhibitor loaded halloysite nanotube-based anticorrosion coatings on magnesium alloy AZ91D [J] . Swapnil H.Adsul, Uday D.Bagale, Shirish H.Sonawane, 镁合金学报（英文） . 2021,第001期
3. Chemical Modification of Halloysite Nanotubes for the Preparation of Nanocomposites on Non Polar Matrix [J] . Alan Ramirez Guevara, Jaime Bonilla Ríos, Laura Eugenia Romero Robles 机械工程与自动化：英文版 . 2019,第004期
4. Study on Mechanical Performance and Wear Resistance of Halloysite Nanotubes/PTFE Nanocomposites Prepared by Employing Solution Mixing Method [J] . Cheng Zhilin, Chang Xingyu, Ma Lu, 中国炼油与石油化工（英文版） . 2018,第001期
5. Halloysite nanotube-based cobalt mesocatalysts for hydrogen production from sodium borohydride [J] . Vinokurov V., Stavitskaya A., Glotov A., Journal of Solid State Chemistry . 2018,第期

机译：基于Halloysite Nanotube的钴Mesocatalys用于硼氢化钠的氢气生产
6. Cobalt oxide supported multi wall carbon nanotube catalysts for hydrogen production via sodium borohydride hydrolysis [J] . Narasimharao Katabathini, Abu-Zied Bahaa M., Alfaifi Sulaiman Yahya International journal of hydrogen energy . 2021,第9期

机译：通过硼氢化钠水解支持氧化钴的多壁碳纳米管催化剂用于氢气产生
7. Cobalt nanoparticles packaged into nitrogen-doped porous carbon derived from metal-organic framework nanocrystals for hydrogen production by hydrolysis of sodium borohydride [J] . Gao Zhiting, Ding Chuanmin, Wang Junwen, International journal of hydrogen energy . 2019,第16期

机译：将钴纳米颗粒包装到源自金属有机骨架纳米晶体的氮掺杂多孔碳中，以通过硼氢化钠的水解生产氢
8. Hydrogen Generation via Sodium Borohydride Hydrolysis Using Graphene Supported Platinum-Ruthenium-Cobalt Catalysts Prepared nu Microwave-Assisted Synthesis [C] . M. Semasko, L. Tamasauskaite-Tamasiunaite, I. Stalnioniene, ECS conference on electrochemical energy conversion storage . 2015

机译：微波辅助合成的石墨烯负载的铂-钌-钴催化剂通过硼氢化钠水解制氢
9. CATALYTIC GENERATION OF HYDROGEN FROM THE HYDROLYSIS OF SODIUM-BOROHYDRIDE. APPLICATION IN A HYDROGEN/OXYGEN FUEL CELL. [D] . KAUFMAN, CLIFFORD MARK. 1981

机译：从硼氢化钠的水解中催化生成氢。在氢/氧燃料电池中的应用。
10. Ruthenium-Loaded Halloysite Nanotubes as Mesocatalysts for Fischer–Tropsch Synthesis [O] . Anna Stavitskaya, Kristina Mazurova, Mikhail Kotelev, 2020

机译：负载钌的埃洛石纳米管作为费-托合成的介催化剂
11. High volume hydrogen production from the hydrolysis of sodium borohydride using a cobalt catalyst supported on a honeycomb matrix [O] . Marchionni Andrea, Bevilacqua Manuela, Filippi Jonathan, 2015

机译：使用负载在蜂窝状基质上的钴催化剂从硼氢化钠水解产生大量氢气
12. Laboratory Studies of Hydrogen Gas Generation Using the Cobalt Chloride Catalyzed Sodium Borohydride-Water Reaction. [R] . Boss, P. A., Becker, C. A., Anderson, G. W., 2015

机译：用氯化钴催化硼氢化钠 - 水反应生成氢气的实验室研究。

Halloysite nanotube-based cobalt mesocatalysts for hydrogen production from sodium borohydride

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