Recent development of A_2B_2O_7 system transparent ceramics 被引量：14

Recent development of A_2B_2O_7 system transparent ceramics

导出

摘要 A_2B_2O_7 system compounds, which usually present three phase structures mainly based on the ionic radius ratios of r_A and r_B(r_A/r_B), have been studied for potential applications in many fields, such as thermal barrier coatings, luminescence powders, fast-ion conductors, photocatalysts, and matrices for immobilization of highly active radionuclides. Since 2005, La_2Hf_2O_7 was fabricated into transparent ceramics and much more attentions were paid on A_2B_2O_7 transparent ceramics for new applications. In this review, the development of A_2B_2O_7 system transparent ceramics was described. The structure characteristics, powder synthesis method, and sintering techniques of the final A_2B_2O_7 transparent ceramics were summarized. After that, the mostly reported A_2Hf_2O_7, A_2Zr_2O_7, and A_2Ti_2O_7 system transparent ceramics were systematically introduced. The potential application fields and future development trends were also discussed, focusing on scintillators, optical elements, and other luminescent materials. A_2B_2O_7 system compounds, which usually present three phase structures mainly based on the ionic radius ratios of r_A and r_B(r_A/r_B), have been studied for potential applications in many fields, such as thermal barrier coatings, luminescence powders, fast-ion conductors, photocatalysts, and matrices for immobilization of highly active radionuclides. Since 2005, La_2Hf_2O_7 was fabricated into transparent ceramics and much more attentions were paid on A_2B_2O_7 transparent ceramics for new applications. In this review, the development of A_2B_2O_7 system transparent ceramics was described. The structure characteristics, powder synthesis method, and sintering techniques of the final A_2B_2O_7 transparent ceramics were summarized. After that, the mostly reported A_2Hf_2O_7, A_2Zr_2O_7, and A_2Ti_2O_7 system transparent ceramics were systematically introduced. The potential application fields and future development trends were also discussed, focusing on scintillators, optical elements, and other luminescent materials.

作者 Zhengjuan WANG Guohong ZHOU Danyu JIANG Shiwei WANG

机构地区 State Key Laboratory of High Performance Ceramics and Superfine Microstructure Key Laboratory of Transparent Opto-functional Inorganic Materials

出处《Journal of Advanced Ceramics》 SCIE CSCD 2018年第4期289-306,共18页 先进陶瓷（英文）

基金 financial supports from the National Key R&D Program of China (No.2017YFB0310500) the National Natural Science Foundation of China (No.51602326)

关键词 A2B2O7 SYSTEM TRANSPARENT CERAMICS POWDER synthesis SINTERING potential applications A_2B_2O_7 system transparent ceramics powder synthesis sintering potential applications

分类号 TQ [化学工程]

引文网络
相关文献

参考文献1

1邹小庆,周国红,易海兰,杨燕,王士维.燃烧法合成铪酸钇粉体及其透明陶瓷的制备[J].无机材料学报,2011,26(9):929-932. 被引量：3

二级参考文献9

1Greskovich C C,Cusano D,Hoffman D,et al.Ceramic scintillators for advanced medical X-ray detectors.J.Am.Ceram.Soc.Bull.,1992,71(7):1120-1130.
2Moewes Alexander,Kunz Christof,Voss Joachim.Soft X-ray stimulated luminescence microscopy and spectroscopy on Gd2O2S:Pr3+ and (Y,Gd)2O3:Eu3+ ceramics.Nuclear Instruments and Methods in Physics Research Section A,1996,373(2):299-304.
3Blassea G,Grabmaierb B C,Ostertagc M.The afterglow mechanism of chromium-doped gadolinium gallium garnet.Journal of Alloys and Compounds,1993,200(1):17-18.
4Zych E,Trojan-Piegza J,Kepinski L.Homogeneously precipitated Lu2O3:Eu nanocrystalline phosphor for X-ray detection.Sensors and Actuators B:Chemical,2005,109(1):112-118.
5Tsoukala V,Greskovich C D.Hole-trap-compensated Scintillator Material.European Patent 0467044,1992.
6Brixner L H.Structural and luminescent properties of the Ln2Hf2O7-type rare earth hafnates.Mater.Res.Bull.,1984,19(2):143-149.
7Borisevich A,Korzhik M,Lecoq P.Luminescence of Ce doped oxygen crystalline compounds based on Hf and Ba.Nucl.Instrum.Meth.A,2003(497):206-209.
8Ji Yaming,Jiang Danyu,Fen Tao,et al.Fabrication of transparent La2Hf2O7 ceramics from combustion synthesized powders.Materials Research Bulletin,2005,40(3):553-559.
9An Liqiong,Ito Akihiko,Goto Takashi.Highly transparent lutetium titanium oxide produced by spark plasma sintering.Journal of the European Ceramic Society,2011,31(1/2):237-240.

共引文献2

1曾建军,张魁宝,陈代梦,郭海燕,邓婷,刘奎.真空烧结制备(La_(0.2)Nd_(0.2)Sm_(0.2)Gd_(0.2)Er_(0.2))_(2)Zr_(2)O_(7)高熵透明陶瓷[J].无机材料学报,2021,36(4):418-424. 被引量：4
2赖扬群,陶世旭,麻朝阳,曹永革.A_(2)B_(2)O_(7)(A=Ln^(3+),B=Zr^(4+),Hf^(4+)Ti^(4+)Ce^(4+))型透明陶瓷研究进展[J].硅酸盐学报,2024,52(3):1157-1170.

同被引文献66

1Fei LI,Lin ZHOU,Ji-Xuan LIU,Yongcheng LIANG,Guo-Jun ZHANG.High-entropy pyrochlores with low thermal conductivity for thermal barrier coating materials[J].Journal of Advanced Ceramics,2019,8(4):576-582. 被引量：56
2王元生,陈大钦.光功能透明玻璃陶瓷研究[J].激光与光电子学进展,2009,46(3):13-20. 被引量：9
3易海兰,蒋志君,毛小建,王士维.透明氧化铝陶瓷的研究新进展[J].无机材料学报,2010,25(8):795-800. 被引量：13
4邹小庆,周国红,易海兰,杨燕,王士维.燃烧法合成铪酸钇粉体及其透明陶瓷的制备[J].无机材料学报,2011,26(9):929-932. 被引量：3
5柳福提,程晓洪.氮化铪的弹性与热力学性质的第一性原理计算[J].重庆师范大学学报（自然科学版）,2012,29(6):70-74. 被引量：1
6Dhruba PANTHI,Nader HEDAYAT,Yanhai DU.Densification behavior of yttria-stabilized zirconia powders for solid oxide fuel cell electrolytes[J].Journal of Advanced Ceramics,2018,7(4):325-335. 被引量：5
7Stanislav S.BALABANOV,Dmitry А.PERMIN,Elena Ye.ROSTOKINA,Sergey V.EGOROV,ANDrey A.SOROKIN.Sinterability of nanopowders of terbia solid solutions with scandia,yttria,and lutetia[J].Journal of Advanced Ceramics,2018,7(4):362-369. 被引量：4
8Tu?ba Tun? PARLAK,A.?ükran DEMIRKIRAN.Zeolite usage as source of silica to produce cordierite in MgO–Al_2O_3–SiO_2 system[J].Journal of Advanced Ceramics,2018,7(4):370-379. 被引量：1
9裴广庆,张艳,柳祝平.铽镓石榴石单晶的生长、表征及其挥发机理研究[J].人工晶体学报,2015,44(4):885-890. 被引量：3
10陈先强,秦海明,张烨,罗朝华,刘永福,蒋俊,江浩川.Fabricationofcerium-dopednonstoichiometric(Ce,Lu,Gd)_(3+δ)(Ga,Al)_(5–δ)O_(12) transparent ceramics[J].Journal of Rare Earths,2015,33(8):863-866. 被引量：4

引证文献14

1Fei LI,Lin ZHOU,Ji-Xuan LIU,Yongcheng LIANG,Guo-Jun ZHANG.High-entropy pyrochlores with low thermal conductivity for thermal barrier coating materials[J].Journal of Advanced Ceramics,2019,8(4):576-582. 被引量：56
2Lin CHEN,Jing FENG.Influence of HfO2 alloying effect on microstructure and thermal conductivity of HoTaO4 ceramics[J].Journal of Advanced Ceramics,2019,8(4):537-544. 被引量：6
3黄新友,刘玉敏,刘洋,李晓英,冯亚刚,陈肖朴,陈鹏辉,刘欣,谢腾飞,李江.醇水共沉淀法制备Yb:YAG透明陶瓷及其性能研究[J].无机材料学报,2021,36(2):217-224. 被引量：6
4曾建军,张魁宝,陈代梦,郭海燕,邓婷,刘奎.真空烧结制备(La_(0.2)Nd_(0.2)Sm_(0.2)Gd_(0.2)Er_(0.2))_(2)Zr_(2)O_(7)高熵透明陶瓷[J].无机材料学报,2021,36(4):418-424. 被引量：4
5刘洋,陆有军,李彦瑞,林立群,袁振侠,黄振坤.Hf-Si-La-O-N体系中HfN的形成及相关系[J].无机材料学报,2021,36(4):443-448.
6赵鹏森,曹新鹏,郑海忠,李贵发,耿永祥,吴仪,胡伟.稀土掺杂热障涂层的研究进展[J].航空材料学报,2021,41(4):83-95. 被引量：14
7Lixuan ZHANG,Xiaoying LI,Dianjun HU,Ziyu LIU,Tengfei XIE,Lexiang WU,Zhaoxiang YANG,Jiang LI.Fabrication and properties of non-stoichiometric Tb_(2)(Hf_(1-x)Tb_(x))_(2)O_(7-x)magneto-optical ceramics[J].Journal of Advanced Ceramics,2022,11(5):784-793. 被引量：2
8张博,陈志杰,潘天宇,赵培.CeO_(2)缓冲层层数对YBa2Cu3O7-σ超导薄膜载流能力的影响[J].真空科学与技术学报,2022,42(10):774-780. 被引量：1
9张祺,牛鹏宇,贾丽涛,林明桂,李德宝.氧化镧催化甲烷氧化偶联反应的晶粒尺寸效应的研究[J].燃料化学学报（中英文）,2023,51(5):644-655. 被引量：1
10孙志成,冯桂青,王帅华,丁雨憧,吴少凡.铕掺杂Gd_(2)Zr_(2)O_(7)透明陶瓷的制备及闪烁性能[J].硅酸盐学报,2024,52(3):746-754.

二级引证文献84

1郭磊,孟诗钧,叶福兴,冯佳燚.高熵陶瓷在热障涂层与环境障涂层中的研究进展[J].稀有金属,2023,47(11):1525-1544. 被引量：1
2韩国庆,刘显明,雷小华,章鹏,周峰.光纤传感技术在航空发动机温度测试中的应用[J].仪器仪表学报,2022,43(1):145-164. 被引量：18
3陈克丕,李泽民,马金旭,刘腾飞,张建军,李翠伟,张孝文.高熵陶瓷材料研究进展与展望[J].陶瓷学报,2020,41(2):157-163. 被引量：18
4Wei-Wei Zhang,Zhi-Yuan Wei,Li-Yuan Zhang,Ya-Zhe Xing,Qiang Zhang.Low-thermal-conductivity thermal barrier coatings with a multi-scale pore design and sintering resistance following thermal exposure[J].Rare Metals,2020,39(4):352-367. 被引量：4
5Lei GUO,Hui XIN,Zhao ZHANG,Xinmu ZHANG,Fuxing YE.Microstructure modification of Y2O3 stabilized ZrO2 thermal barrier coatings by laser glazing and the effects on the hot corrosion resistance[J].Journal of Advanced Ceramics,2020,9(2):232-242. 被引量：19
6Zhuang Ma,Qi Zhang,Ling Liu,Yanbo Liu.Preparation and heat insulating capacity of Sm2Zr2O7-SiC composites based on photon thermal transport[J].Journal of Advanced Ceramics,2020,9(4):454-461. 被引量：5
7Ji-Xuan Liu,Xiao-Qin Shen,Yue Wu,Fei Li,Yongcheng Liang,Guo-Jun Zhang.Mechanical properties of hot-pressed high-entropy diboride-based ceramics[J].Journal of Advanced Ceramics,2020,9(4):503-510. 被引量：24
8Da LIU,Honghua LIU,Shanshan NING,Yanhui CHU.Chrysanthemum-like high-entropy diboride nanoflowers: A new class of high-entropy nanomaterials[J].Journal of Advanced Ceramics,2020,9(3):339-348. 被引量：7
9郭晓杰,鲍伟超,刘吉轩,王新刚,张国军,许钫钫.高熵陶瓷固溶结构的透射电镜研究[J].无机材料学报,2021,36(4):365-371. 被引量：2
10张丰年,郭猛,苗洋,高峰,成楚飞,程富豪,刘宇峰.高熵陶瓷(Zr_(1/7)Hf_(1/7)Ce_(1/7)Y2/7La_(2/7))O2-δ的制备及烧结行为[J].无机材料学报,2021,36(4):372-378. 被引量：6

1TPET to mainly recommend four types of intelligent equipmentv[J].China Textile,2019(3):22-23.
2Social Development Trends and Achievements Over 40 Years[J].Beijing Review,2019,62(1):36-36.
3R.M.KERSHI,F.M.ALI,M.A.SAYED.Influence of rare earth ion substitutions on the structural,optical,transport,dielectric,and magnetic properties of superparamagnetic iron oxide nanoparticles[J].Journal of Advanced Ceramics,2018,7(3):218-228. 被引量：3
4Andras S.Szabo,Peter Laszlo.Food Physics as One of the Dominant Parts of the Interdisciplinary Science of the XXI Century[J].Journal of Food Science and Engineering,2019,9(2):60-62.
5袁芳,龙娟.Peer Teaching——Useful Tool in College English Teaching[J].海外英语,2019(3):259-260.
6TU Chang-Zheng,YANG Yu-Ting,XU Li-Li,YAN Bang-Ling,WANG Fan.Flexible Bis(benzimidazole)-based Ligands Directed the Structure Characteristics of Coordination Polymers Based on Diphenic Acid Co-ligands:Syntheses, Structures and Properties[J].Chinese Journal of Structural Chemistry,2019,38(1):155-164. 被引量：1
7Liang-jun Yan.Redox imbalance stress in diabetes mellitus: Role of the polyol pathway[J].Animal Models and Experimental Medicine,2018,1(1):7-13. 被引量：27
8Jie Zhang,Zhilin Tian,Haibin Zhang,Lei Zhang,Jingyang Wang.On the chemical compatibility between Zr-4 substrate and well-bonded Cr_2AlC coating[J].Journal of Materials Science & Technology,2019,35(1):1-5. 被引量：4
9Shenzhong Mo,Lina Tan,Bing Fang,Zhen Wu,Zhiqiang Su,Yantu Zhang,Meizhen Yin.Mechanically controlled FRET to achieve high-contrast fluorescence switching[J].Science China Chemistry,2018,61(12):1587-1593. 被引量：1

Journal of Advanced Ceramics

2018年第4期

浏览历史

内容加载中请稍等...