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Online since: July 2012
Authors: Li Ming Zou, Xin Long Ling, Tao Liu, Yi Zhe Wei
The effect of Amino-functionalizaion on the Structure and Properties
of MWNTs
Tao Liu 1, a, Yizhe Wei 1,b, Xinlong Ling1, 2,c, Liming Zou 1,3, d★
1College of Materials Science and Engineering, Donghua Universiy, shanghai, 201620, China
2Department of Biological and Chemical engineering, Guangxi University of Technology, Liuzhou, Guangxi, 545006, China
3State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Donghua Universiy, shanghai, China
amylovedxm@163.com, b ln_2008@163.com, c lxl29981@sina.com, dlmzou@dhu.edu.cn
★Corresponding author: LiMing Zou, lmzou@dhu.edu.cn
Keywords: MWNTs; oxidization; amino-functionalizaion; structure; properties
Abstract: Oxidized MWNTs were obtained by the oxidization in the mixture of concentrated HNO3 and H2SO4.
Journal of Applied Polymer Science, 2011, 119:3360-3371
Journal of Fudan University, 2008, 47(4):454-456
Materials Science and Engineering A, 2007, 464:151–156
Journal of Applied Polymer Science, 2008, 108:2865-2871.
Journal of Applied Polymer Science, 2011, 119:3360-3371
Journal of Fudan University, 2008, 47(4):454-456
Materials Science and Engineering A, 2007, 464:151–156
Journal of Applied Polymer Science, 2008, 108:2865-2871.
Online since: September 2011
Authors: Wei Wang, Bao Ju Zhang, Xiao Hui Yin
Introduction
Long Period Fiber Grating(LPFG) recently emerged as a passive fiber optical devices and has many merits, such as simple manufacturing process, low insertion loss, low background reflection, small size and easy to embedded in intelligent materials[1].
Acknowledgements This work was supported by the Natural Science Foundation of Tianjin(Grant No.10JCYBJC00400) and the Doctor Foundation of Tianjin Normal University (Grant No.52XB1007).
References [1] L.Qin, Z.X.Wei, Q.Y.Wang, et.al.: Optical Materials,Vol 14(2000),p.239-242
[3] Vengsarkar A.M, Lemaire P.J, Judkins J.B, et.al.: Journal of Lightwave Technology, 14(1996),p.58-65
[4] Sang Mae Lee, Xijia Gu: Journal of the Optical Society of Korea, Vol 3(1999),p.74-79
Acknowledgements This work was supported by the Natural Science Foundation of Tianjin(Grant No.10JCYBJC00400) and the Doctor Foundation of Tianjin Normal University (Grant No.52XB1007).
References [1] L.Qin, Z.X.Wei, Q.Y.Wang, et.al.: Optical Materials,Vol 14(2000),p.239-242
[3] Vengsarkar A.M, Lemaire P.J, Judkins J.B, et.al.: Journal of Lightwave Technology, 14(1996),p.58-65
[4] Sang Mae Lee, Xijia Gu: Journal of the Optical Society of Korea, Vol 3(1999),p.74-79
Online since: May 2011
Authors: Ying Wang, Hong Gao, Gang Li, Yan Sheng Li, Zhen Shu Nan
References
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Materials Letters, 61 (2007), 4890–4893
Zhou.Seed-mediated synthesis of uniform ZnOnanorods in the presence of polyethylene glycol.Journal of Crystal Growth, 270 (2004), 527–534 [4] Xiao Li Zhang, Young Hwan Kim, Young Soo Kang.Low-temperature synthesis and shape control of ZnO nanorods.Current Applied Physics ,6 (2006) ,796–800 [5] Huiying Wei, Youshi Wu, Ning Lun, Chunxia Hu.Hydrothermal synthesis and characterization of ZnO nanorods.Materials Science and Engineering, A 393 (2005), 80–82 [6] Tarek Alammar, Anja-Verena Mudring.Facile ultrasound-assisted synthesis of ZnO nanorods in an ionic liquid.Materials Letters, 63 (2009) ,732–735 [7] Rizwan Wahab, S.G.
Ansari, Young-Soon Kim, Hyung-Kee Seo, Hyung-Shik Shin.Room temperature synthesis of needle-shaped ZnO nanorods via sonochemical method.Applied Surface Science ,253 (2007) ,7622–7626 [8] Fanfei BaiT, Ping He, Zhijie Jia, Xintang Huang, Yun He.Size-controlled preparation of monodispersed ZnO nanorods.Materials Letters ,59 (2005) ,1687– 1690 [9] BAI Fan-fei, HE Ping, JIA Zhi-jie, HUANG Xin-tang, HE Yun.One Step Synthesis of Monodispersed ZnO Nanorods by in-Situ Reaction.Journal of Materials Science&Engineerin,23(2005),580-583 [10] Kuo-Liang Ying, Tsung-Eong Hsieh,Yi-Feng Hsieh.Colloidal dispersion of nano-scale ZnO powders using amphibious and anionic polyelectrolytes.Ceramics International,35(2009) 1165–1171 [11] Y.
Tan.PREPARATION AND CHARACTERIZATION OF NANO-ZnO FLAKES PREPARED BY REACTIVE ION EXCHANGE METHOD.Journal of Thermal Analysis and Calorimetry, 95 (2009) 2, 671–674 [12] G Nagaraju,S.Ashoka,P.Chithaiah,C.N.Tharamani,G.T.Chandrappa .Surfactant free hydrother mally derived ZnO nanowires,nanorods, microrods and their characterization.Materials Science in Semiconductor Processing, 13 (2010), 21–28 [13] LI Xiao- he1, FENG Ping, HE Yue- hui.Probe into Dispersion of Nano Size Powder in Water.Nanoscience & Nanotechnology,2007,1,17-21 [14] Guolin Song, Sude Ma, Guoyi Tang, Xiaowei Wang.Ultrasonic-assisted synthesis of hydrophobic magnesium hydroxide Nanoparticles.Colloids and Surfaces A: Physicochem.
Materials Letters, 61 (2007), 4890–4893
Online since: November 2016
Authors: Camellia Panatarani, I Made Joni, Renny Febrida, Nina Djustiana, Elin Karlina, Yuliafanny Imarundha
Introduction
Indonesia has natural resources that could potentially be used as manufacturing materials for dentistry concerning that expensiveness of current imported materials.
Key Engineering Materials.
International Journal of Molecular Sciences, vol. 3, pp. 87-113
Journal Am.
Key Engineering Materials Vol. 696 pp. 93-98
Key Engineering Materials.
International Journal of Molecular Sciences, vol. 3, pp. 87-113
Journal Am.
Key Engineering Materials Vol. 696 pp. 93-98
Online since: January 2018
Authors: Wilson Acchar, Luana Barbosa Cruz, Antonio Carlos da Silva, Pedro Lima, Herval R. Paes Jr.
Paes Junior2
1Post-Graduation Program of Science and Materials Engineering, Federal University of Rio Grande do Norte (UFRN), Natal, Brazil
2Universidade Estadual Norte-Fluminense-UENF, Rio de Janeiro,Brazil
Keywords: NiO-GDC; nanomaterial; tape casting
Abstract.
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Introduction Thin ceramic materials have been prepared in the last decades by the tape-casting method, which has a low cost process and particularly indicated for multilayered ceramic composite materials [1-4].
Greil: Materials Science and Engineering A Vol. 202 (1995), p. 206
Jens: International Journal of Applied Ceramic Technology Vol. (2013), p. 1
Zhu: Progress in Materials Scinece Vol. 57 (2012), p. 804
Online since: March 2014
Authors: Ebtisam H. Hasan, Khaled M. Shokry, Mohamed A. Nour, Magdy Helal
These choices result in materials with a wide range of behaviors in different applications.
The potential fire hazard of any materials depends on many factors.
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The potential fire hazard of any materials depends on many factors.
Mallick, Particulate and Short Fiber Reinforced Polymer Composites, Comprehensive Composite Materials Journal, 2. pp. 291-331
Broughton, Glass Fiber Reinforced Plastics Properties, Comprehensive Composite Materials Journal, 2. pp. 151-197
Drzal, Fiber-Matrix Interface Tests, Comprehensive Composite Materials Journal, 5. pp. 71-111
Online since: February 2013
Authors: J.R. Rathod, R. Srivastava, K.D. Patel, V.M. Pathak, Haresh S. Patel
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Authors: John K. Makunza
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Construction and Building Materials, Vol. 20, pp. 673 – 678
Advanced Composite Materials, Vo1. 6(4), pp. 335 - 347
Construction and Building Materials, Vol. 41, pp. 681 – 690
Journal of Adhesion Science and Technology, Vol. 25(6 – 7), pp. 615 – 626
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Authors: Chang Jun Qiu, Ju Zhou, Bin He, Xiang Fang Fan
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