Growth of High Magnetic a-Fe2O3 and Fe3O4 Nanowires via an Oxide Assisted Vapor-Solid Process

利用氧化辅助气固法生长高磁性的a-Fe2O3和Fe3O4纳米线

下载PDF

导出

摘要 We describes a controllable synthesis procedure for growing a-Ee2O3 and Ee3O4 nanowires. High magnetic hematite a-Fe2O3 nanowires are successfully grown on Fe0.5Ni0.5 alloy substrates via an oxide assisted vapor-solid process. Experimental results also indicate that previous immersion of the substrates in a solution of oxalic acid causes the grown nanowires to convert gradually into magnetite （Fe3O4） nanowires. Additionally, the saturated state of Fe3O4 nanowires is achieved as the oxalic acid concentration reaches 0.75 mol/L. The average diameter and length of nanowires expands with an increasing operation temperature and the growth density of nanowires accumulates with an increasing gas flux in the vapor-solid process. The growth mechanism of a-Fe2O3 and Fe3O4 nanowires is also discussed. The results demonstrate that the entire synthesis of nanowires can be completed within 2 h.

作者章明许乃锋

机构地区中原大学机械工程系华中科技大学机械科学与工程学院陆军专科学校共同科

出处《Chinese Journal of Chemical Physics》 SCIE CAS CSCD 2011年第1期109-114,I0004,共7页 化学物理学报（英文）

关键词 Oxide assisted vapor-solid process Fe3O4 NWs a-Fe2O3 NWs Oxalic acid Magnetic material 氧化辅助气固法 Fe3O4纳米线 a-Fe2O3纳米线草酸磁性材料

分类号 O [理学]

引文网络
相关文献

参考文献22

1P. Alivisatos, Science 271, 933 (1996).
2S. J. Tans, M. H. Devoret, R. J. A. Groeneveld, and C Dekker, Nature 393, 49 (1998).
3J. T. Hu, O. Y. Min, P. D. Yang, and C. M. Lieber Nature 399, 48 (1999).
4J. R. Morber, Y. Ding, M. S. Haluska, Y. Li, J. P. Liu Z. L. Wang, and R. L. Snyder, J. Phys. Chem. B 110 21672 (2006).
5B. P. Zhuang, F. C. Lai, L. M. Lin, M. B. Lin, Y. Qu and Z. G. Huang, Chin. J. Chem. Phys. 23, 79 (2010).
6X. L. Bai, N. Pan, X. P. Wang, and H. Q. Wang, Chin J. Chem. Phys. 21, 81 (2008).
7L. Y. Zhang, D. S. Xuel, X. F. Xu, A. B. Gui, and C X. Gao, J. Phys.: Condens. Matter. 16, 4541 (2004).
8C. Terrier, M. Abid, C. Arm, S. Serrano-Guisan, L. Gravier, and J. Ansermet, J. Appl. Phys. 98, 086102 (2005).
9W. P. Zheng, R. D. Zu, and L. W. Zhong, Science 291, 1947 (2001).
10F. Liu, P. J. Cao, H. R. Zhang, J. F. Tian, C. G. Xiao, C. G. Shen, J. Q. Li, and H. J. Gao, Adv. Mater. 17, 1893 (2005).

1李永红.生存函数的一种估计方法及其相会结果[J].昆明学院学报,1994,25(S1):48-52.
2北京大学在磁性纳米线电荷与自旋输运研究方面取得新进展[J].北京大学学报（自然科学版）,2006,42(4):495-495.
3何芳钧,韩吉胜,姚涛,于慧,郑莹.α－Fe_2O_3（SO_4^（2－））气敏材料的红外吸收谱[J].山东大学学报（理学版）,1994,34(3):357-360. 被引量：1
4我国成功制备出gamma-Fe2O3磁性纳米管[J].现代材料动态,2008(4):27-27.
5李国栋,王倩,邓保霞,张雅晶.多孔氧化铝薄膜的光致发光起源:三种缺陷中心[J].物理学报,2014,63(24):327-334.
6奇云.2012“上帝粒子”和我们相会[J].科技潮,2012(8):62-65.
7陈俊,蔡维理,牟季美.退火对有序孔洞氧化铝膜荧光性能的影响[J].无机材料学报,2001,16(4):677-682. 被引量：3
8黄秀峰,赵雪丹,徐美,邱红梅,秦良强,潘礼庆.Zn_xFe_(3-x)O_4粉末的高温固相法制备及其磁学性质和输运性质[J].北京科技大学学报,2008,30(5):532-536.
9沈农夫.神秘灵性的三角形[J].科学之友,2008(10):28-28.
10马立安,胡利勤,郭太良.锌衬底上直接生长密度可调的氧化锌纳米棒阵列和场发射特性(英文)[J].液晶与显示,2008,23(3):357-360.

Chinese Journal of Chemical Physics

2011年第1期

浏览历史

内容加载中请稍等...

Growth of High Magnetic a-Fe2O3 and Fe3O4 Nanowires via an Oxide Assisted Vapor-Solid Process

参考文献22

相关作者

相关机构

相关主题

浏览历史