Rare-Earth Doping in Nanostructured Inorganic Materials

Impurity doping is a promising method to impart new properties to various materials. Due to their unique optical, magnetic, and electrical properties, rare-earth ions have been extensively explored as active dopants in inorganic crystal lattices since the 18th century. Rare-earth doping can alter th...

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Veröffentlicht in:	Chemical reviews Jg. 122; H. 6; S. 5519
Hauptverfasser:	Zheng, Bingzhu, Fan, Jingyue, Chen, Bing, Qin, Xian, Wang, Juan, Wang, Feng, Deng, Renren, Liu, Xiaogang
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	United States 23.03.2022
Schlagworte:	Metals, Rare Earth - chemistry Nanostructures - chemistry
ISSN:	1520-6890, 1520-6890
Online-Zugang:	Weitere Angaben
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Abstract	Impurity doping is a promising method to impart new properties to various materials. Due to their unique optical, magnetic, and electrical properties, rare-earth ions have been extensively explored as active dopants in inorganic crystal lattices since the 18th century. Rare-earth doping can alter the crystallographic phase, morphology, and size, leading to tunable optical responses of doped nanomaterials. Moreover, rare-earth doping can control the ultimate electronic and catalytic performance of doped nanomaterials in a tunable and scalable manner, enabling significant improvements in energy harvesting and conversion. A better understanding of the critical role of rare-earth doping is a prerequisite for the development of an extensive repertoire of functional nanomaterials for practical applications. In this review, we highlight recent advances in rare-earth doping in inorganic nanomaterials and the associated applications in many fields. This review covers the key criteria for rare-earth doping, including basic electronic structures, lattice environments, and doping strategies, as well as fundamental design principles that enhance the electrical, optical, catalytic, and magnetic properties of the material. We also discuss future research directions and challenges in controlling rare-earth doping for new applications.
AbstractList	Impurity doping is a promising method to impart new properties to various materials. Due to their unique optical, magnetic, and electrical properties, rare-earth ions have been extensively explored as active dopants in inorganic crystal lattices since the 18th century. Rare-earth doping can alter the crystallographic phase, morphology, and size, leading to tunable optical responses of doped nanomaterials. Moreover, rare-earth doping can control the ultimate electronic and catalytic performance of doped nanomaterials in a tunable and scalable manner, enabling significant improvements in energy harvesting and conversion. A better understanding of the critical role of rare-earth doping is a prerequisite for the development of an extensive repertoire of functional nanomaterials for practical applications. In this review, we highlight recent advances in rare-earth doping in inorganic nanomaterials and the associated applications in many fields. This review covers the key criteria for rare-earth doping, including basic electronic structures, lattice environments, and doping strategies, as well as fundamental design principles that enhance the electrical, optical, catalytic, and magnetic properties of the material. We also discuss future research directions and challenges in controlling rare-earth doping for new applications. Impurity doping is a promising method to impart new properties to various materials. Due to their unique optical, magnetic, and electrical properties, rare-earth ions have been extensively explored as active dopants in inorganic crystal lattices since the 18th century. Rare-earth doping can alter the crystallographic phase, morphology, and size, leading to tunable optical responses of doped nanomaterials. Moreover, rare-earth doping can control the ultimate electronic and catalytic performance of doped nanomaterials in a tunable and scalable manner, enabling significant improvements in energy harvesting and conversion. A better understanding of the critical role of rare-earth doping is a prerequisite for the development of an extensive repertoire of functional nanomaterials for practical applications. In this review, we highlight recent advances in rare-earth doping in inorganic nanomaterials and the associated applications in many fields. This review covers the key criteria for rare-earth doping, including basic electronic structures, lattice environments, and doping strategies, as well as fundamental design principles that enhance the electrical, optical, catalytic, and magnetic properties of the material. We also discuss future research directions and challenges in controlling rare-earth doping for new applications.Impurity doping is a promising method to impart new properties to various materials. Due to their unique optical, magnetic, and electrical properties, rare-earth ions have been extensively explored as active dopants in inorganic crystal lattices since the 18th century. Rare-earth doping can alter the crystallographic phase, morphology, and size, leading to tunable optical responses of doped nanomaterials. Moreover, rare-earth doping can control the ultimate electronic and catalytic performance of doped nanomaterials in a tunable and scalable manner, enabling significant improvements in energy harvesting and conversion. A better understanding of the critical role of rare-earth doping is a prerequisite for the development of an extensive repertoire of functional nanomaterials for practical applications. In this review, we highlight recent advances in rare-earth doping in inorganic nanomaterials and the associated applications in many fields. This review covers the key criteria for rare-earth doping, including basic electronic structures, lattice environments, and doping strategies, as well as fundamental design principles that enhance the electrical, optical, catalytic, and magnetic properties of the material. We also discuss future research directions and challenges in controlling rare-earth doping for new applications.
Author	Fan, Jingyue Liu, Xiaogang Chen, Bing Deng, Renren Zheng, Bingzhu Qin, Xian Wang, Juan Wang, Feng
Author_xml	– sequence: 1 givenname: Bingzhu surname: Zheng fullname: Zheng, Bingzhu organization: State Key Laboratory of Silicon Materials, Institute for Composites Science Innovation, School of Materials Science and Engineering, Zhejiang University, Hangzhou 310027, China – sequence: 2 givenname: Jingyue orcidid: 0000-0003-4987-7025 surname: Fan fullname: Fan, Jingyue organization: Department of Chemistry, National University of Singapore, Singapore 117543, Singapore – sequence: 3 givenname: Bing orcidid: 0000-0002-0663-1343 surname: Chen fullname: Chen, Bing organization: Department of Materials Science and Engineering, City University of Hong Kong, Hong Kong SAR 999077, China – sequence: 4 givenname: Xian surname: Qin fullname: Qin, Xian organization: Department of Chemistry, National University of Singapore, Singapore 117543, Singapore – sequence: 5 givenname: Juan orcidid: 0000-0002-1340-9011 surname: Wang fullname: Wang, Juan organization: Institute of Environmental Health, MOE Key Laboratory of Environmental Remediation and Ecosystem Health, College of Environmental & Resource Sciences, Zhejiang University, Hangzhou 310058, China – sequence: 6 givenname: Feng orcidid: 0000-0001-9471-4386 surname: Wang fullname: Wang, Feng organization: Department of Materials Science and Engineering, City University of Hong Kong, Hong Kong SAR 999077, China – sequence: 7 givenname: Renren orcidid: 0000-0001-8213-6304 surname: Deng fullname: Deng, Renren organization: State Key Laboratory of Silicon Materials, Institute for Composites Science Innovation, School of Materials Science and Engineering, Zhejiang University, Hangzhou 310027, China – sequence: 8 givenname: Xiaogang orcidid: 0000-0003-2517-5790 surname: Liu fullname: Liu, Xiaogang organization: Department of Chemistry, National University of Singapore, Singapore 117543, Singapore
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/34989556$$D View this record in MEDLINE/PubMed
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