Rare Earth Elements in New Advanced Engineering Applications
From an engineering approach, rare earth elements (REE) have the extra potential to modify modern engineering in an extraordinary way. Their peculiar optical, mechanical, electronic, and magnetic properties have been used for years and even open up wider possibilities for using rare earth elements. With advances in all fields of engineering, it is
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Rare Earth Hydrides and Hydrogen Storage Alloys | SpringerLink
Lundin studied hydrogen storage properties and characteristics of rare earth compounds, proposed some applications, potential and realized areas, such as automobiles, buses,
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Regulatory Mechanisms and Applications of Rare Earth
School of Materials and Energy, University of Electronic Science and Technology of China, Chengdu, Sichuan, 611731 China. Hefei National Research Center for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei, Anhui, 230026 China. These authors contributed equally to this work. Search for more papers
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Rare earth incorporated electrode materials for advanced energy storage
Rare earth is a group of elements with unique properties. Discovering the application of rare earth elements in advanced energy storage field is a great chance to relate rare earth chemistry with the energy storage technology. This review presents current research on electrode material incorporated with rare earth elements in advanced energy
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Energy Storage and Minerals
Energy Storage Technologies. Energy storage is an affordable and sustainable way to integrate intermittent renewable energy sources and support a reliable, resilient electricity grid. Focused on advancing multiple
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The vital application of rare earth for future high-performance
Abundant researches have illuminated that the strategy of both doping RE elements and constructing RE oxide composites exhibited huge potential for the fabrication of
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Rare-earth-doped materials for applications in quantum information
Rare-earth materials offer key properties for quantum memory and signal processing. Physics and properties of rare-earth optical transitions in solids are reviewed. Details of 47 promising optical transitions are tabulated and compared. A new narrow-band dynamic filtering method using spectral hole burning is discussed. Results of successful passive laser
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Gaseous sorption and electrochemical properties of rare-earth
In this review, we focus on recent research progress of gaseous sorption and electrochemical hydrogen storage properties of rare-earth alloys and highlight their
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Rare Earth-Doped MoS 2 for Supercapacitor
Molybdenum-based electrode materials are identified as effective electrodes to improve energy storage devices'' performances. In this work, pure and different rare earth (neodymium and gadolinium) doped MoS 2
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Rare Earth Hydrides and Hydrogen Storage Alloys | SpringerLink
Lundin studied hydrogen storage properties and characteristics of rare earth compounds, proposed some applications, potential and realized areas, such as automobiles, buses, industrial vehicles, railroads, storage of converted electrical off-peak energy, power plants, storage of converted wind, solar, or geothermal energy, storage of converted industrial waste heat
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Surface modification of rare earth Sm-doped WO3 films through
Electrochromic materials (ECMs) could exhibit reversible color changes upon application of the external electric field, which exhibits huge application prospects in smart windows, energy storage devices, and displays. For the practical application of
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Rare earth-incorporated high entropy oxides for energy and
In this review, we target the structure, synthesis, and application of rare earth-incorporated high entropy oxides to summarize their research progress in catalysis in recent years. First, we provide an overview of three types of rare earth-incorporated high entropy oxides: fluorite-type, perovskite-type, and pyrochlore-type. Then, the main synthesis methods are
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Optical anti-counterfeiting and information storage based on rare-earth
Although research on rare earth-doped luminescent materials for optical anti-counterfeiting and optical information storage has received much attention in recent years, there are still some challenges in putting them into practical applications. In terms of optical anti-counterfeiting, firstly, due to the continuous proliferation of counterfeit goods, the simple
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Rare Earth-Doped MoS 2 for Supercapacitor Application
The low availability of fossil fuels, high expenditure, and serious environmental impacts are the key to sustainable clean and green energy development. Molybdenum-based electrode materials are identified as effective electrodes to improve energy storage devices'' performances. In this work, pure and different rare earth (neodymium and gadolinium) doped
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Emerging Rare Earth Element Separation Technologies
Emerging Rare Earth Element Separation Technologies Subhamay Pramanik,[a] Sandeep Kaur,[a] Ilja Popovs,[a] Alexander S. Ivanov,[a] and Santa Jansone-Popova*[a] Rare earth elements are essential for numerous clean energy applications, yet their mining, separation, and processing pose significant environmental challenges. Traditional separation
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Recent advances in rare-earth-based materials for electrocatalysis
As conventional holders of 4f orbitals, rare earth (RE) elements, notably the whole lanthanide (La) series, scandium, and yttrium, are drawing wide attention as electronic modulators because of their unique electronic structures for transition-metal-based materials for energy conversion applications. 54, 55 The typical oxidation state of RE
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Progress, application and prospect of rare earth-based
In particular, RE-based perovskites can be categorized into oxide perovskites and halide perovskites based on the constituent of X-site in perovskite/DP with formula ABX 3 and A 2 BB''X 6, respectively.For halide perovskites as illustrated in Fig. 2 A, the A-site corresponds to small organic cations (methylammonium (MA +) or formamidine (FA +), etc.) or inorganic
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Research progress of rare earth separation methods and
Rare earth elements are lanthanides, including scandium and yttrium, as defined by the International Union of Pure and Applied Chemistry (IUPAC), 1 which have shown an upward trend over the past few decades. 2, 3 Due to structural conditions, earth science problems, and scarcity, rare earths have gained considerable attention and advancements. 4
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Pioneering sustainable energy solutions with rare-earth
Rare-earth-nanomaterials (RE-NMs) have surged to the forefront of cutting-edge research, captivating scientists and engineers alike with their unprece
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Institutional Repository of Peking University: Rare earth
Discovering the application of rare earth elements in advanced energy storage field is a great chance to relate rare earth chemistry with the energy storage technology. This review presents current research on electrode material incorporated with rare earth elements in advanced energy storage systems such as Li/Na ion battery, Li-sulfur battery, supercapacitor, rechargeable
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Sustainability applications of rare earths from metallurgy,
In this review, we introduce the applications of rare earths in traditional metallurgy, biomedicine, magnetism, luminescence, catalysis, and energy storage. The research advances of typical
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Rare-Earth Metal-Based Materials for Hydrogen Storage: Progress
By elucidating the fundamental principles, synthesis methods, characterization techniques, and performance enhancement strategies, we unveil the immense potential of rare
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Rare-earth-containing perovskite nanomaterials: design, synthesis
Yaping Du is a full professor at the School of Materials Science and Engineering, Nankai University, and the director of Tianjin Key Lab for Rare Earth Materials and Applications. His research interests focus on rare-earth functional materials, colloidal inorganic nanocrystals, and energy storage and conversion materials. In 2004, he received
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Special Issue: Rare earth luminescent materials
For light-emitting diode (LED) applications, rare earth luminescent materials with high photoluminescence quantum yields, good stabilities, and broad luminescence spectra ranging from the visible
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Rare-Earth Metal-Based Materials for Hydrogen Storage:
Concept of hydrogen storage methods (Red is H atom, Black is carbon) [] recent years, researchers exploring various new hydrogen storage materials have discovered that rare-earth metals exhibit tremendous potential in this field due to their unique physical and chemical properties [30,31,32].Particularly, the lanthanides (elements with atomic numbers 57–71) are
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Rare Earth Complex-Based Functional Materials: From Molecular
Rare earth (RE) elements, due to their unique electronic structures, exhibit excellent optical, electrical, and magnetic properties and thus have found widespread applications in the fields of electronics, optics, and biomedicine. A significant advancement in the use of RE elements is the formation of RE complexes. RE complexes, created by the coordination of RE
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Research papers Rare-earth gallium garnet (RE3Ga5O12, RE = Eu,
Investigating this series of rare earth gallium garnets other than traditional metal oxides, etc., could improve advancements in energy storage applications. This work focuses on synthesizing rare earth gallium garnets RE 3 Ga 5 O 12 (RE: Eu, Gd, Dy, Er, Tm &Yb) using the gel matrix method. Various studies thoroughly examined the garnet''s phase
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The vital application of rare earth for future high-performance
Rare earth (RE) elements refer to a group of seventeen special elements with similar atomic structure, ionic radius, and chemical properties, which include fifteen lanthanide elements (La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, and Lu) and two related elements (Y and Sc) [15].Researchers have found that RE elements perform stronger
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Rare Earth Hydrides and Hydrogen Storage Alloys
Rare Earth Hydrides and Hydrogen Storage Alloys 13.1 Brief Description It has long been found that hydrogen can be dissolved in steel and other metal alloys, which can cause stress corrosion and hydrogen embrittlement. Hence, the research on the interactions between different metals and hydrogen has gradually increased. Studies have found that certain metals and their alloys
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