MULTI SCALE RARE EARTH CRYSTAL MATERIALS AND THEIR APPLICATIONS |
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Development and Application of the Rare Earth Yttrium |
ZHANG Chi1, DANG Qian2, LIU Guohuai2,*, WANG Zhaodong2,*
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1 School of Materials Science and Engineering, Shenyang University of Technology, Shenyang 110870, China 2 State Key Laboratory of Rolling Technology and Continuous Rolling Automation, Northeastern University, Shenyang 110819, China |
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Abstract In recent years, rare earth yttrium has been widely used in various applications, especially in crystalline luminescent materials, due to its excellent physical and chemical properties. And it gradually becomes an important additive in industrial production all over the world. However, China is the world's largest exporter of rare earth yttrium resources, yet the use of rare-earth yttrium processing in industrial production is still at a low level. How to develop and utilize rare earth yttrium resources has gradually become a huge problem on China's industrialization path. In this paper, we have focused on the current research status of Y/Y2O3 in related industries, such as luminescent crystals, metallurgy, superconductivity, biomedicine and other important fields, expecting to provide assistance in the design and development of yttrium resources in China.
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Published: 10 February 2023
Online: 2023-02-23
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Fund:The National Natural Science Foundation of China (52071065). |
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1 Möller P. Discovery and occurrence of lanthanoids and yttrium, IWA Publishing, UK, 2022, pp. 17. 2 Dinér P. Nature Chemistry, 2016, 8(2), 192. 3 Xiao S, Geng Y, Rui X, et al. Resources Policy, 2022, 76, 102624. 4 Zhang K, Kleit A N, Nieto A. Renewable and Sustainable Energy Reviews, 2017, 77, 899. 5 Lin H C. World Nonferrous Metal, 2012(12), 57(in Chinese). 林河成. 世界有色金属, 2012(12), 57. 6 Ma X, Li X, Li J, et al. Nature Communications, 2018, 9(1), 1. 7 Berends A C, van de Haar M A, Krames M R. Chemical Reviews, 2020, 120(24), 13461. 8 Hossain M K, Hossain S, Ahmed M H, et al. ACS Applied Electronic Materials, 2021, 3(9), 3715. 9 Ricci P C. Crystals, 2020, 10(7), 559. 10 Xie J C, Li Q A, Li J H, et al. Rare Metals and Cemented Carbides, 2008(1), 56 (in Chinese). 谢建昌, 李全安, 李建弘, 等. 稀有金属与硬质合金, 2008(1), 56. 11 Seiler P, Wallmeroth K, Mann K. Nature Photonics, 2010, 4(5), 285. 12 Geusic J E, Marcos H M, Van Uitert L G. Applied Physics Letters, 1964, 4(10), 182. 13 Chen F, de Aldana J R V. Laser & Photonics Reviews, 2014, 8(2), 251. 14 Zhou T, Zhang L, Yang H, et al. Journal of the American Ceramic Society, 2015, 98(8), 2459. 15 Messing G L, Stevenson A J. Science, 2008, 322(5900), 383. 16 Nishiura S, Tanabe S, Fujioka K, et al. Optical Materials, 2011, 33(5), 688. 17 Irifune T, Kawakami K, Arimoto T, et al. Nature Communications, 2016, 7(1), 1. 18 Boulon G, Guyot Y, Guzik M, et al. The Journal of Physical Chemistry C, 2014, 118(28), 15474. 19 Ikesue A, Aung Y L, Lupei V. Ceramic lasers, Cambridge University Press, UK, 2013. 20 GoBler C, Schwarz U, Ruther P. U.S. Patent, US10276631, 2019. 21 Wu T, Sher C W, Lin Y, et al. Applied Sciences, 2018, 8(9), 1557. 22 Bhardwaj J, Peddada R, Spinger B. Light-Emitting Diodes: Materials, Devices, and Applications for Solid State Lighting XX. SPIE, 2016, 9768, 113. 23 Riwotzki K, Haase M. The Journal of Physical Chemistry B, 2001, 105(51), 12709. 24 Riwotzki K, Meyssamy H, Schnablegger H, et al. Angewandte Chemie International Edition, 2001, 40(3), 573. 25 Wang Z, Song C, Zhang Y, et al. Materials Characterization, 2019, 151, 112. 26 Chen Y, Zhu Z, Zhou J. Materials Science and Engineering: A, 2022, 850, 143513. 27 Hsiang H I, Fan L F, Ho K T. Journal of Magnetism and Magnetic Materials, 2017, 444, 1. 28 Jia Z, Zhu Z, Zeng C, et al. Chemical Engineering Journal, 2020, 398, 124444. 29 Mei Z, Liu Z, Bai S, et al. Journal of Alloys and Compounds, 2021, 870, 159435 30 Li J, Chen Z, Jing J, et al. Journal of Magnesium and Alloys, 2021, 9(2), 613. 31 Jiang Q, Lu D, Liu C, et al. Frontiers in Materials, 2021, 8, 761052. 32 Zhang C, Wang J, Li X, et al. Physical Chemistry Chemical Physics, 2021, 23(47), 26887. 33 Li Q, Li B, Li J, et al. Materials Science and Engineering: A, 2018, 722, 47. 34 Liu D, Qin J, Zhang Y, et al. Materials Science and Engineering: A, 2020, 797, 140238. 35 Jia Z, Zhu Z, Zeng C, et al. Chemical Engineering Journal, 2020, 398, 124444. 36 Li J H, Xiao X M, Yuan C, et al. Journal of Rare Earths, 2015, 33(10), 1087. 37 Bednorz J G, Müller K A. Zeitschrift für Physik B Condensed Matter, 1986, 64(2), 189. 38 Wu M K, Ashburn J R, Torng C J, et al. Physical Review Letters, 1987, 58(9), 908. 39 Wang Y, Wang K, Sun Y, et al. Chinese Physics B, 2022, 31(10), 106201. 40 Semenok D V, Troyan I A, Ivanova A G, et al. Materials Today, 2021, 48, 18. 41 Bi J, Nakamoto Y, Zhang P, et al. Materials Today Physics, 2022, 28, 100840. 42 Fashu S, Lototskyy M, Davids M W, et al. Materials & Design, 2020, 186, 108295. 43 Zhao C, Wang R Y, Pan K J, et al. Chinese Science Bulletin, 2022, 67(11), 1155(in Chinese). 赵超, 王如愿, 潘科嘉, 等. 科学通报, 2022, 67(11), 1155. 44 Jagadeeswara Rao C, Vetrivendan E, Madhura B, et al. Journal of Nu-clear Materials, 2020, 540, 152354. 45 Cui R J, Gao M, Zhang H, et al. Journal of Materials Processing Techno-logy, 2010, 210(9), 1190. 46 Feder H M, Chellew N R, Rosen C L.In: Argonne National Laboratory. United States, 1957, pp. 3. 47 Padmanabhan P V A, Ramanathan S, Sreekumar K P, et al. Materials Chemistry and Physics, 2007, 106(2-3), 416. 48 Madhura B, Vetrivendan E, Rao C J, et al. Ceramics International, 2019, 45(9), 11694. 49 Yuan C, Compton D, Cheng X, et al. Journal of the European Ceramic Society, 2012, 32(16), 4041. 50 Rajakumar G, Mao L, Bao T, et al. Applied Sciences, 2021, 11(5), 2172. 51 Tickner B J, Stasiuk G J, Duckett S B, et al. Chemical Society Reviews, 2020, 49(17), 6169. 52 Kannan S K, Sundrarajan M. Bulletin of Materials Science, 2015, 38(4), 945. 53 Saratale R G, Karuppusamy I, Saratale G D, et al. Colloids and Surfaces B: Biointerfaces, 2018, 170, 20. 54 Ischenko V, Polarz S, Grote D, et al. Advanced Functional Materials, 2005, 15(12), 1945. 55 Arsiya F, Sayadi M H, Sobhani S. Materials Letters, 2017, 186, 113. 56 Nagajyothi P C, Pandurangan M, Veerappan M, et al. Materials Letters, 2018, 216, 58. 57 Song X, Shang P, Sun Z, et al. Nanomedicine, 2019, 14(19), 2519. 58 Lyu Y, Xie J, Wang D, et al. Journal of Materials Science, 2020, 55(17), 7184. 59 de Sousa L F, Simba B G, de Souza J V C, et al. The International Journal of Advanced Manufacturing Technology, 2022, 123(1), 99. 60 Kumar A S, Durai A R, Sornakumar T. Materials Letters, 2004, 58(11), 1808. 61 Xu G J, Zhang Q X, Luo J F, et al. Welding & Joining, 2021(3), 35 (in Chinese). 徐国进, 张巧霞, 罗俊锋, 等. 焊接, 2021(3), 35. 62 Zhang Y, Wang Q Q, Xu T Y, et al. Preparation technology of rare earth materials, Chemical Industry Press, China, 2015 (in Chinese). 张胤, 王青春, 许剑轶, 等. 稀土材料制备技术, 化学工业出版社, 2015. 63 Zhao P. Study on the sintering behavior of Yttria. Master's Thesis, Nort-heastern University, China, 2009 (in Chinese). 赵鹏. 氧化钇烧结行为的研究. 硕士学位论文,东北大学, 2009. 64 王光强. 中国专利,CN100595157C, 2010. 65 Liu Y B, Chen G H, Yu B, et al. Chinese Rare Earths, 2021, 42(5), 133(in Chinese). 刘玉宝, 陈国华, 于兵, 等. 稀土, 2021, 42(5), 133. 66 Zhang C Z, Li G D, Yun Y H. Rare Metal Materials and Engineering, 2006(5), 736(in Chinese). 张常在, 李国栋, 云月厚. 稀有金属材料与工程, 2006(5), 736. |
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