Tunable negative thermal expansion in La(Fe, Si)13/resin composites with high mechanical property and long-term cycle stability

Zhang, He; Liu, Yuwei; Huang, Rongjin; Chen, Bin; Xia, Min; Yu, Ziyuan; Chen, Haodong; Qiao, Kaiming; Cong, Junzhuang; Taskaev, S.V.; Chu, Ke; Zhang, Hu

doi:10.20517/microstructures.2022.13

Cited by 11 publications

(1 citation statement)

References 26 publications

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“…The study of magnetic NTE materials can be traced back to the discovery of ZTE of Fe 65 Ni 35 Invar alloy in 1896 [27] . The ZTE nature of magnetic NTE materials results from the MVE during the transition from magnetic order to magnetic disorder structure [28,29] . The LaFe 13 -based materials change from an FM state to a PM state at high temperatures.…”

Section: Excellent Negative Thermal Expansion Of Lafe 13 -Based Mater...mentioning

confidence: 99%

La(Fe,Si/Al)₁₃-based materials with exceptional magnetic functionalities: a review

Long,

Song,

Chen

2024

Microstructures

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The field of magnetic functional materials continues to garner significant attention due to its research and diverse applications, such as magnetic storage and spintronics. Among these, La(Fe,Si/Al)13-based materials exhibit abundant magnetic properties and emerge as highly captivating subjects with immense potential. This review provides an overview of the diverse magnetic structures and itinerant electron metamagnetic transition observed in La(Fe,Si/Al)13-based materials. The transformation of different magnetic configurations elicits the phenomena such as negative thermal expansion, magnetostriction, magnetocaloric effect, and barocaloric effect. In addition, the pivotal role of spin and lattice coupling in these phenomena is revealed. The magnetic functionalities of La(Fe,Si/Al)13-based materials can be controlled through adjustments of magnetic exchange interactions. Key methods, including chemical substitution, external field application, and interstitial atom insertion, enable precise modulation of these functionalities. This review not only provides valuable insights into the design and development of magnetic functional materials but also offers significant contributions to our understanding of the underlying mechanisms governing their magnetic behaviors.

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Section: Excellent Negative Thermal Expansion Of Lafe 13 -Based Mater...mentioning

confidence: 99%

La(Fe,Si/Al)₁₃-based materials with exceptional magnetic functionalities: a review

Long,

Song,

Chen

2024

Microstructures

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Rational Design of Janus Metal Atomic‐Site Catalysts for Efficient Polysulfide Conversion and Alkali Metal Deposition: Advances and Prospects

Dai,

Li,

Shi

et al. 2024

Adv Funct Materials

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Although metal–sulfur batteries (M–S batteries, M = Li, Na, K) are promising next‐generation energy‐storage devices because of ultrahigh theoretical energy density, low cost, and environmentally friendliness, their practical applications are significantly hindered by the shuttle effect of polysulfides and growth of alkali metal dendrites. These issues can be mitigated by using Janus metal atomic‐site catalysts, which possess the maximum atom utilization efficiency (≈100%), adjustable electronic structures, and tailorable catalytic sites, thereby effectively improving the electrochemical performance of M–S batteries. In this review, the recent progress and development of Janus metal atomic‐sites on the properties, synthesis, and characterizations are reviewed. Then, the recent advances in Janus metal atomic‐site catalysts intended for accelerating polysulfide conversion and regulating alkali metal deposition, briefly introducing the working principles of the Janus metal atomic‐site catalysts in M–S batteries, are systematically summarized. Furthermore, a high emphasis is placed on effective regulation strategies for the rational design of Janus metal atomic‐site catalysts in M–S batteries. Finally, the current challenges and future research directions are also presented to develop high‐efficiency Janus metal atomic‐site catalysts for high‐energy M–S batteries.

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Shear‐Strained Pd Single‐Atom Electrocatalysts for Nitrate Reduction to Ammonia

Liu,

Zhuang,

Liu

et al. 2024

Angewandte Chemie

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Electrochemical nitrate reduction method (NitRR) is a low‐carbon, environmentally friendly, and efficient method for synthesizing ammonia, which has received widespread attention in recent years. Copper‐based catalysts have a leading edge in nitrate reduction due to their good adsorption of *NO3. However, the formation of active hydrogen (*H) on Cu surfaces is difficult and insufficient, resulting in a large amount of the by‐product NO2‐. In this work, Pd single atoms suspended on the interlayer unsaturated bonds of CuO atoms formed due to dislocations (Pd‐CuO) were prepared by low temperature treatment, and the Pd single atoms located on the dislocations were subjected to shear stress and the dynamic effect of support formation to promote the conversion of nitrate into ammonia. The catalysis had an ammonia yield of 4.2 mol.gcat‐1. h‐1, and a Faraday efficiency of 90% for ammonia production at −0.5 V vs. RHE. Electrochemical in‐situ characterization and theoretical calculations indicate that the dynamic effects of Pd single atoms and carriers under shear stress obviously promote the production of active hydrogen, reduce the reaction energy barrier of the decision‐making step for nitrate conversion to ammonia, further promote ammonia generation.

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Tunable negative thermal expansion in La(Fe, Si)13/resin composites with high mechanical property and long-term cycle stability

Cited by 11 publications

References 26 publications

La(Fe,Si/Al)₁₃-based materials with exceptional magnetic functionalities: a review

La(Fe,Si/Al)₁₃-based materials with exceptional magnetic functionalities: a review

Rational Design of Janus Metal Atomic‐Site Catalysts for Efficient Polysulfide Conversion and Alkali Metal Deposition: Advances and Prospects

Shear‐Strained Pd Single‐Atom Electrocatalysts for Nitrate Reduction to Ammonia

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Tunable negative thermal expansion in La(Fe, Si)13/resin composites with high mechanical property and long-term cycle stability

Cited by 11 publications

References 26 publications

La(Fe,Si/Al)13-based materials with exceptional magnetic functionalities: a review

La(Fe,Si/Al)13-based materials with exceptional magnetic functionalities: a review

Rational Design of Janus Metal Atomic‐Site Catalysts for Efficient Polysulfide Conversion and Alkali Metal Deposition: Advances and Prospects

Shear‐Strained Pd Single‐Atom Electrocatalysts for Nitrate Reduction to Ammonia

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Resources

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La(Fe,Si/Al)₁₃-based materials with exceptional magnetic functionalities: a review

La(Fe,Si/Al)₁₃-based materials with exceptional magnetic functionalities: a review