HPHT synthesis and magnetic property of -Fe2O3@C core-shell nanorods

Zhang Song-Bo; Wang Fang-Biao; Li Fa-Ming; Wen Ge-Hui

doi:10.7498/aps.63.108101

Abstract

-Fe2O3@C core-shell nanorods with average diameter of 20 nm and length of 150 nm are synthesized by transforming FeOOH@PVA nanorods under the condition of high pressure and high temperature (HPHT). The FeOOH@PVA nanorods are prepared via a hydrothermal route. The best synthesis condition for transforming FeOOH@PVA core-shell nanorods into -Fe2O3@C nanorods is 400 ℃ under 1 GPa. Owing to high aspect ratios, the -Fe2O3@C nanorods present a high coercivity of 330 Oe (10 Oe=79.5775 A/m). The possible mechanism for the synthesis of -Fe2O3@C nanorods is also discussed. The HTHP method can provide a new way for preparing of one-dimensional core-shell nanostructures.

Keywords:

Authors and contacts

1.
State Key Laboratory of Superhard Materials, Jilin University, Jilin 130012, China
Funds: Project supported by the National Natural Science Foundation of China (Grant No. 50972048).

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Cited By

[1]	Fu X L, Wang Y, Li P G, Chen L M, Zhang H Y, Tu Q Y, Li L H, Tang W H 2005 Acta Phys. Sin. 54 1693 (in Chinese) [符秀丽, 王懿, 李培刚, 陈雷明, 张海英, 涂青云, Li L H, 唐为华 2005 物理学报 54 1693]
[2]	Li F S, Wang T, Wang Y 2005 Acta Phys. Sin. 54 3100 (in Chinese) [李发伸, 王涛, 王颖 2005 物理学报 54 3100]
[3]	Fu W Y, Cao J, Li Y X, Yang H B 2011 Acta Phys. Sin. 60 067505 (in Chinese) [付乌有, 曹静, 李伊荇, 杨海滨 2011 物理学报 60 067505]
[4]	Yin J H, Pan L Q 2010 Chin. Phys. B 19 57502
[5]	Chen W B, Han M G, Deng L J 2011 Acta Phys. Sin. 60 017507 (in Chinese) [陈文兵, 韩满贵, 邓龙江 2011 物理学报 60 017507]
[6]	Wu W, Xiao X H, Zhang S F, Zhou J, Fan L X, Ren F, Jiang C Z 2010 J. Phys. Chem. C 114 16092
[7]	Liu F, Zhu J H, Hou Y L, Gao S 2013 Chin. Phys. B 22 107503
[8]	Jiang G H, Jiang J S 2005 J. Inorg. Mater. 20 1066 (in Chinese) [姜国华, 姜继森 2005 无机材料学报 20 1066]
[9]	Rao P M, Zheng X L 2011 Nano Lett. 11 2390
[10]	Wang J H, Ma Y W, Watanabe K 2008 Chem. Mater. 20 20
[11]	Zhou S M, Zhang X T, Gong H C, Zhang B, Wu Z S, Du Z L, Wu S X 2008 J. Phys.: Condens. Matter. 20 75217
[12]	Santra S, Tapec R, Theodoropoulou N, Dobson J, Hebard A, Tan W H 2001 Langmuir 17 2900
[13]	Kong H, Song J, Jang J 2010 Chem. Commun. 46 6735
[14]	Sun S N, Wei C, Zhu Z Z, Hou Y L, Venkatraman S S, Xu Z C 2014 Chin. Phys. B 23 37503
[15]	Yang X T, Xu L G, Choon N S, Chan S O H 2003 Nanotechnology 14 624
[16]	Li D, Teoh W Y, Woodward R C, Cashion J D, Selomulya C, Amal R 2009 J. Phys. Chem. C 113 12040
[17]	Gonsalves K E, Li H, Santiago P 2001 J. Mater. Sci. 36 2461
[18]	Chen J Y, Zheng H F, Zeng Y S 2000 Sci. Technol. Rev. 6 13 (in Chinese)[陈晋阳, 郑海飞, 曾贻善 2000 科技导报 6 13]
[19]	Li J J, Zhao X P, Tao Q, Huang X Q, Zhu P W, Cui T, Wang X 2013 Acta Phys. Sin. 62 026202 (in Chinese)[黎军军, 赵学坪, 陶强, 黄晓庆, 朱品文, 崔田, 王欣 2013 物理学报 62 026202]
[20]	Qin J M, Wang H, Zeng F M, Li J L, Wan Y C, Liu J H 2010 Acta Phys. Sin. 59 8910 (in Chinese)[秦杰明, 王皓, 曾繁明, 李建利, 万玉春, 刘景和 2010 物理学报 59 8910]
[21]	Yang C C 2007 J. Membrane Sci. 288 51
[22]	Chaudhari N S, Warule S S, Muduli S, Kale B B, Jouen S, Lefez B, Hannoyer B, Ogale S B 2011 Dalton Trans. 40 8003
[23]	Wu P, Du N, Zhang H, Yu J X, Yang D R 2011 J. Phys. Chem. C 115 3612
[24]	Kim J H, Min B R, Lee K B, Won J, Kang Y S 2002 Chem. Commun. 2732
[25]	Wang Y, Teng X W, Wang J S, Yang H 2003 Nano Lett. 3 789
[26]	Qi Y Y, Chen W, Mai L Q, Hu B, Dai Y 2007 Chinese J. Inorg. Chem. 23 1895 (in Chinese) [祁琰媛, 陈文, 麦立强, 胡彬, 戴英 2007 无机化学学报 23 1895]

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Vol. 63, Issue 10 - 2014-05-20

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