Synergistic Combination of Ni Nanoparticles and Ti3C2 MXene Nanosheets with MgH2 Particles for Hydrogen Storage

Zhu, Xueqin; Yang, Minjian; Mu, Dengfei; Gao, Yiyi; He, Li; Ma, Liqiang

doi:10.1021/acsanm.3c03261

ACS Appl. Nano Mater.

2023

DOI: 10.1021/acsanm.3c03261

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Synergistic Combination of Ni Nanoparticles and Ti₃C₂ MXene Nanosheets with MgH₂ Particles for Hydrogen Storage

Xueqin Zhu,

Minjian Yang,

Dengfei Mu

et al.

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2024

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Cited by 10 publications

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MXenes and MXene‐Based Metal Hydrides for Solid‐State Hydrogen Storage: A Review

ur Rehman,

Akram Khan,

Mansha

et al. 2024

Chemistry An Asian Journal

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Hydrogen‐driven energy is fascinating among the everlasting energy sources, particularly for stationary and onboard transportation applications. Efficient hydrogen storage presents a key challenge to accomplishing the sustainability goals of hydrogen economy. In this regard, solid‐state hydrogen storage in nanomaterials, either physically or chemically adsorbed, has been considered a safe path to establishing sustainability goals. Though metal hydrides have been extensively explored, they fail to comply with the set targets for practical utilization. Recently, MXenes, both in bare form and hybrid state with metal hydrides, have proven their flair in ascertaining the hydrides′ theoretical and experimental hydrogen storage capabilities far beyond the fancy materials and current state‐of‐the‐art technologies. This review encompasses the significant accomplishments achieved by MXenes (primarily in 2019–2024) for enhancing the hydrogen storage performance of various metal hydride materials such as MgH2, AlH3, Mg(BH4)2, LiBH4, alanates, and composite hydrides. It also discusses the bottlenecks of metal hydrides for hydrogen storage, the potential use of MXenes hybrids, and their challenges, such as reversibility, H2 losses, slow kinetics, and thermodynamic barriers. Finally, it concludes with a detailed roadmap and recommendations for mechanistic‐driven future studies propelling toward a breakthrough in solid material‐driven hydrogen storage using cost‐effective, efficient, and long‐lasting solutions.

show abstract

MXenes and MXene‐Based Metal Hydrides for Solid‐State Hydrogen Storage: A Review

ur Rehman,

Akram Khan,

Mansha

et al. 2024

Chemistry An Asian Journal

View full text Add to dashboard Cite

show abstract

A review on 2D materials: unveiling next-generation hydrogen storage solutions, advancements and prospects

Ghotia,

Kumar,

Srivastava

2024

J Mater Sci

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Research on the modification of magnesium hydride by two-dimensional layered Mo2Ti2C3 MXene

Lu,

Yang,

Kong

et al. 2024

Journal of Energy Storage

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Synergistic Combination of Ni Nanoparticles and Ti₃C₂ MXene Nanosheets with MgH₂ Particles for Hydrogen Storage

Cited by 10 publications

References 45 publications

MXenes and MXene‐Based Metal Hydrides for Solid‐State Hydrogen Storage: A Review

MXenes and MXene‐Based Metal Hydrides for Solid‐State Hydrogen Storage: A Review

A review on 2D materials: unveiling next-generation hydrogen storage solutions, advancements and prospects

Research on the modification of magnesium hydride by two-dimensional layered Mo2Ti2C3 MXene

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