A Solid-System Strategy for Controlled Hydrolytic Release of Hydrogen by Encapsulation of Ammonia Borane in Cobalt Decorated Halloysite Aerogel

Mi, Ang; Guo, Luqi; Yan, Yueru; Wang, Dan; Shang, Huishan; Zhao, Yafei; Zhang, Bing

doi:10.1021/acssuschemeng.4c01330

ACS Sustainable Chem. Eng.

2024

DOI: 10.1021/acssuschemeng.4c01330

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A Solid-System Strategy for Controlled Hydrolytic Release of Hydrogen by Encapsulation of Ammonia Borane in Cobalt Decorated Halloysite Aerogel

Ang Mi,

Luqi Guo,

Yueru Yan

et al.

Abstract: Exploring the "on−off" control of hydrogen release remains a critical issue for efficiently on-demand utilization of hydrogen energy. In this work, a new hydrogen storage strategy of loading ammonia borane (AB) solid and metal catalyst Co in a halloysite nanotube aerogel (AB@Co/HNTA) is proposed for controlled hydrogen release from AB hydrolysis by controlling the added water. The results show that Co nanoparticles with a size of 3.07 nm are uniformly distributed on halloysite and HNTA surface, and AB can be p… Show more

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Cited by 6 publications

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Multifunctional Electromagnetic Responsive Porous Materials Synthesized by Freeze Casting: Principles, Progress, and Prospects

Ning,

Zeng,

Huang

et al. 2024

Adv Funct Materials

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Freeze casting is a solidification technique utilized in the fabrication of porous materials. However, the freeze casting process is quite complex, and significant challenges remain in precisely controlling the pore size and shape of porous structures. This study aims to investigate the customization of multifunctional electromagnetic wave (EMW) absorbers with 3D porous structures via freeze casting. This review initially presents the fundamental principles underlying the freeze casting technique and examines the correlation between internal and external factors during the preparation process and porosity. The emerging trends in constructing novel and intricate macroscopic structures through freeze casting are subsequently outlined. Furthermore, this review focuses on the fabrication of composites with various porous microstructures through freeze casting of low‐dimensional building blocks, and their EMW response and multifunctional properties. By regulating the internal and external influencing mechanisms of freeze casting, porous EMW absorption materials exhibit outstanding advantages such as electromagnetic property manipulation, controllable structure, high porosity, high specific surface area, lightweight, and flexibility. These features broaden their applications in electromagnetic shielding, mechanical property, radar stealth, thermal insulation and fire prevention, flexible sensors, antifreeze ability, etc. In addition, we discuss the challenges and prospects of high‐performance EMW absorbers using freeze casting techniques.

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Multifunctional Electromagnetic Responsive Porous Materials Synthesized by Freeze Casting: Principles, Progress, and Prospects

Ning,

Zeng,

Huang

et al. 2024

Adv Funct Materials

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show abstract

Recent Progress on Cobalt‐Based Heterogeneous Catalysts for Hydrogen Production from Ammonia Borane

Li,

Gao,

et al. 2024

ChemCatChem

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Ammonia borane (NH3BH3, AB) is a quintessential exemplar of chemical hydrogen storage materials and has been widely used in hydrogen evolution. Although expensive metal catalysts (such as Rh, Ru, Pt, Ag, etc.) exhibit high activity in the hydrolysis of ammonia borane, inexpensive metals are more economical. Cobalt (Co), in particular, is not only relatively inexpensive and readily available, but also possesses high activity and selectivity. Compared to other catalysts, cobalt‐based catalysts have better durability and can maintain catalytic activity for a longer period of time, making them favored by researchers. These catalysts demonstrate excellent stability, hydrogen evolution rate, and turn over frequency. This article summarized previous progress in low price metal cobalt‐based catalysts for hydrogen precipitation from ammonia borane, focusing on cobalt‐based catalysts supported on various supports, especially those supported on carbon materials, metal oxides, MOFs, and nickel foams. The characteristics of high‐performance catalytic systems are analyzed in detail. The development prospects of Co catalysts for hydrogen production from ammonia borane were also discussed.

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Synthesis and Characterization of Cu@Hal, an Effective Heterogeneous Catalyst for Aqueous Multicomponent Azide‐Alkyne [3+2] Cycloaddition Reactions

Diehl,

Hamdi,

et al. 2024

ChemNanoMat

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The synthesis of a nanocomposite material consisting of Cu nanoparticles encapsulated in halloysite nanotubes (Cu@Hal) was achieved by the reduction of Cu(NO3)2•3H2O with sodium ascorbate/sodium borohydride in an aqueous suspension of trisodium citrate and halloysite. The nanocomposite was found to be an effective heterogeneous catalyst for the multicomponent copper catalyzed azide‐alkyne cycloaddition reaction (CuAAC). A variety of terminal alkynes reacted with benzyl halides and sodium azide in the presence of Cu@Hal in water. In situ formation of the organic azides afforded the corresponding 1,4‐disubstituted 1,2,3‐triazoles regioselectivily, in good to excellent yields. The catalyst was easily recovered and recycled without loss of activity with low metal leaching.

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A Solid-System Strategy for Controlled Hydrolytic Release of Hydrogen by Encapsulation of Ammonia Borane in Cobalt Decorated Halloysite Aerogel

Cited by 6 publications

References 53 publications

Multifunctional Electromagnetic Responsive Porous Materials Synthesized by Freeze Casting: Principles, Progress, and Prospects

Multifunctional Electromagnetic Responsive Porous Materials Synthesized by Freeze Casting: Principles, Progress, and Prospects

Recent Progress on Cobalt‐Based Heterogeneous Catalysts for Hydrogen Production from Ammonia Borane

Synthesis and Characterization of Cu@Hal, an Effective Heterogeneous Catalyst for Aqueous Multicomponent Azide‐Alkyne [3+2] Cycloaddition Reactions

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