Dwell time effects on high coercivity CoFe2O4 thin films deposited by the solution processing
文献类型:期刊论文
| 作者 | Tang, Xianwu1 ; Jin, Linghua1; Chen, Fangchu1; Wei, Renhuai1; Yang, Jie1; Dai, Jianming1; Song, Wenhai1; Zhu, Xuebin1,2; Sun, Yuping1,3
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| 刊名 | APPLIED PHYSICS LETTERS
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| 出版日期 | 2016-10-10 |
| 卷号 | 109期号:15页码:152406 |
| DOI | 10.1063/1.4964836 |
| 文献子类 | Article |
| 英文摘要 | High room temperature coercivity CoFe2O4 (CFO) thin films are desirable in view of many applications, which is seldom achieved over 3 kOe in solution deposited CFO thin films. Herein, grain growth kinetic is investigated in the solution derived CFO thin films with coercivity larger than 4 kOe, showing a relaxation mechanism. The coercivity and magnetization increase initially and then decrease with increasing dwell time. The high coercivity is originated mainly from the critical grain size and the growth strain induced by the small crystallites and poorly developed grains. The results will provide a route to fabricate larger-area CFO thin films with high coercivity on silicon wafers by low-cost solution processing. Published by AIP Publishing. |
| WOS关键词 | CHEMICAL SOLUTION DEPOSITION ; LIMITED GRAIN-GROWTH ; COBALT FERRITE ; MAGNETIC-ANISOTROPY |
| WOS研究方向 | Physics |
| 语种 | 英语 |
| WOS记录号 | WOS:000386534800033 |
| 资助机构 | National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; National NSFC(11204316 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; CAS Large-Scale Scientific Facility(U1432137 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; Hefei Science Center, CAS(2015HSC-UP004 ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; 11374304) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; U1232210) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) ; 2016HSC-IU011) |
| 源URL | [http://ir.hfcas.ac.cn:8080/handle/334002/22046]  |
| 专题 | 合肥物质科学研究院_中科院固体物理研究所 合肥物质科学研究院_中科院强磁场科学中心 |
| 作者单位 | 1.Chinese Acad Sci, Inst Solid State Phys, Key Lab Mat Phys, Hefei 230031, Peoples R China 2.Chinese Acad Sci, Hefei Sci Ctr, Hefei 230031, Peoples R China 3.Chinese Acad Sci, High Field Magnet Lab, Hefei 230031, Peoples R China |
| 推荐引用方式 GB/T 7714 | Tang, Xianwu,Jin, Linghua,Chen, Fangchu,et al. Dwell time effects on high coercivity CoFe2O4 thin films deposited by the solution processing[J]. APPLIED PHYSICS LETTERS,2016,109(15):152406. |
| APA | Tang, Xianwu.,Jin, Linghua.,Chen, Fangchu.,Wei, Renhuai.,Yang, Jie.,...&Sun, Yuping.(2016).Dwell time effects on high coercivity CoFe2O4 thin films deposited by the solution processing.APPLIED PHYSICS LETTERS,109(15),152406. |
| MLA | Tang, Xianwu,et al."Dwell time effects on high coercivity CoFe2O4 thin films deposited by the solution processing".APPLIED PHYSICS LETTERS 109.15(2016):152406. |
入库方式: OAI收割
来源:合肥物质科学研究院
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