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Online since: December 2011
Authors: Qian Xiang, Ying Gao, Qun Qi Wang, Juan Tang, Shang Wen Yang, Jiao Wu, Jing Qiu Liu
The unique and attractive properties of nanostructured materials present new opportunities for the design of highly sophisticated electrochemical sensor.
Conclusions and Future Prospects Nanostructured materials are opening new horizons in the development of electrochemical sensor.
The unique and attractive properties of nanostructured materials present new opportunities for the design of highly sophisticated electroanalytical sensor.
Yu: Journal of Analytical Science 4 (2005), p. 359
Weiss: Science 307 (2005), p. 538
Conclusions and Future Prospects Nanostructured materials are opening new horizons in the development of electrochemical sensor.
The unique and attractive properties of nanostructured materials present new opportunities for the design of highly sophisticated electroanalytical sensor.
Yu: Journal of Analytical Science 4 (2005), p. 359
Weiss: Science 307 (2005), p. 538
Online since: June 2012
Authors: Quan Zheng Zhang
BaMoO4 nanocrystallites were synthesized successfully using Sol-gel process with (NH4)6Mo7O24·4H2O, BaCl2·2H2O, citric acid and PEG400 as original materials.
Introduction Nanocrystalline materials possess promising applications due to their grain size dependent phenomena in nano-scale.
Gao: Materials Letters. 61(2007), 4525 [6] J.
Li: Journal of Materials Chemistry, 17(2007), 2754 [7] L.
Alonso: Journal of Solid State Chemistry. 146(1999), 266
Introduction Nanocrystalline materials possess promising applications due to their grain size dependent phenomena in nano-scale.
Gao: Materials Letters. 61(2007), 4525 [6] J.
Li: Journal of Materials Chemistry, 17(2007), 2754 [7] L.
Alonso: Journal of Solid State Chemistry. 146(1999), 266
Online since: January 2014
Authors: Yu Jun Zuo, Xi Xian Song, Wan Cheng Zhu, Cheng Yu Jiang, Pai Ke Wen
Acknowledgements
The present work is supported by the Plan Key Projects Supported by National Science and Technology of China (Grant No.2012BAB08B06), National Science Foundation of China (Grant No. 50934006), Guizhou Province Key Project of Natural Science of China (Grant 2010003), Guizhou Province Governor Outstanding Science and Technology Education Fund Project (Grant No. (2011) 36), High Level Talents in Guizhou Province of China Research Conditions Help Fund Project (Grant No.
LIU: Journal of Hebei Polytechnic University (Natural Science Edition), Vol. 31 (2009), p. 6-10
LI: Journal of China Coal Society, Vol. 35 (2010), p. 1057-1065
ZHU: Journal of Central South University, Vol. 19 (2010) p. 3285-3290
JIANG: International Journal of Coal Geology, Vol. 83 (2010), p. 11-20.
LIU: Journal of Hebei Polytechnic University (Natural Science Edition), Vol. 31 (2009), p. 6-10
LI: Journal of China Coal Society, Vol. 35 (2010), p. 1057-1065
ZHU: Journal of Central South University, Vol. 19 (2010) p. 3285-3290
JIANG: International Journal of Coal Geology, Vol. 83 (2010), p. 11-20.
Online since: January 2010
Authors: Denis Solas, Thierry Baudin, Richard Penelle, Sorphal Chhann
Experimental results
The texture of the deformed materials was measured by X-ray diffraction at different levels through
the thickness.
Journal of Mechanical Sciences, vol. 43 (2001), p. 1997 [3] F.
Journal of Plasticity, vol. 10 (1994), p. 535 [9] L.
Materials Science and Engineering A, vol. 337 (2002), p. 241 [10] S.
Science forum, vol. 550 (2007), p.551 [11] S.
Journal of Mechanical Sciences, vol. 43 (2001), p. 1997 [3] F.
Journal of Plasticity, vol. 10 (1994), p. 535 [9] L.
Materials Science and Engineering A, vol. 337 (2002), p. 241 [10] S.
Science forum, vol. 550 (2007), p.551 [11] S.
Online since: September 2011
Authors: Jian Chi Lv, Xiao Ning Jiao, Xiong Hua Wu
Introduction
Spunlaced nonwoven fabric is the preferred one-time materials in medical service domain and has been taken great attention all over the world.
BP neural network model In the actual production of spunlaced nonwoven fabric, generally by experience or tests to finally determine the quantitative ratio of raw materials and the surface density .Empirical method was too subjective and the test method required a lot of time, human and material resources[3].
References [1] Yongmei Ma,Yuan Sun:Nonwovens Vol.19(2001),P.20,in Chinese [2] Fubing Peng,Xiaoning Jiao, Xiaofang Ye: Journal of Anhui University of Technology and Science Vol.20(2005),P.61,in Chinese
[8] Xionghua Wu, Ya Liu: Journal of Textile Research Vol.32(2011),P.51,in Chinese
[11] Haitao Cao, Weijie Zhang:China Science and Technology Information Vol.6(2009),P.279,in Chinese.
BP neural network model In the actual production of spunlaced nonwoven fabric, generally by experience or tests to finally determine the quantitative ratio of raw materials and the surface density .Empirical method was too subjective and the test method required a lot of time, human and material resources[3].
References [1] Yongmei Ma,Yuan Sun:Nonwovens Vol.19(2001),P.20,in Chinese [2] Fubing Peng,Xiaoning Jiao, Xiaofang Ye: Journal of Anhui University of Technology and Science Vol.20(2005),P.61,in Chinese
[8] Xionghua Wu, Ya Liu: Journal of Textile Research Vol.32(2011),P.51,in Chinese
[11] Haitao Cao, Weijie Zhang:China Science and Technology Information Vol.6(2009),P.279,in Chinese.
Online since: October 2015
Authors: Amin Mojiri, Nastaien Qamaruz Zaman, Hossein Farraji, Muhammad Aqeel Ashraf, Parsa Mohajeri, Hamidi Abdul Aziz
Materials and Methods
Leachate Characteristics.
Critical reviews in environmental science and technology, 32(4) (2002) p. 297-336
Research Journal of Chemical Sciences ISSN, 2231 (2011) p. 606
Journal of hazardous materials, 140(1) (2007) p. 316-324
Journal of hazardous materials, 189(1) (2011) p. 404-413
Critical reviews in environmental science and technology, 32(4) (2002) p. 297-336
Research Journal of Chemical Sciences ISSN, 2231 (2011) p. 606
Journal of hazardous materials, 140(1) (2007) p. 316-324
Journal of hazardous materials, 189(1) (2011) p. 404-413
Online since: June 2015
Authors: Yu Ming Zhang, Ren Xu Jia, Ji Chao Hu, Yue Hu Wang, Bin Xin
Materials Science Forum 600–603 (2009)119
[7] M.
Pedersen, Materials Research Bulletin 46 (2011) 1272-1275 [13] T.
Ohashi, Materials Science Forum 717–720 (2012) 101–104 [14] T.
Fukuda, H.Okumura, Materials Science Forum 645–648 (2010) 763–765
Sudarshan, Materials Science Forum 600–603 (2009) 139–142 [16] V.
Pedersen, Materials Research Bulletin 46 (2011) 1272-1275 [13] T.
Ohashi, Materials Science Forum 717–720 (2012) 101–104 [14] T.
Fukuda, H.Okumura, Materials Science Forum 645–648 (2010) 763–765
Sudarshan, Materials Science Forum 600–603 (2009) 139–142 [16] V.
Online since: September 2007
Authors: Fu Tao Han, Cai Nian Jing, Zuo Cheng Wang, Wen Ping Zhang
Wang: Journal of material science & technology Vol. 17 (2001), p. 143
[2] A.
Hodgson: Materials Science and Engineering A Vol. 367 (2004), p. 282 [3] A.
Kaspar: Materials Science Forum Vol. 426-432 (2003), p. 1349 [4] C.
Wilshire: Journal of Materials Processing Technology Vol. 122 (2002), p. 56 [5] M.
Jonas: Journal of Materials Processing Technology Vol. 117(2001), p. 293
Hodgson: Materials Science and Engineering A Vol. 367 (2004), p. 282 [3] A.
Kaspar: Materials Science Forum Vol. 426-432 (2003), p. 1349 [4] C.
Wilshire: Journal of Materials Processing Technology Vol. 122 (2002), p. 56 [5] M.
Jonas: Journal of Materials Processing Technology Vol. 117(2001), p. 293
Online since: August 2010
Authors: Jin Cheng, Yi Su, Xiao Ping Zou, Gong Qing Teng, Xiang Min Meng, Yuan Yang, Hong Ying Feng, Xue Ming Lü, Cui Liu Wei, Zhe Sun, Gang Qiang Yang
Among these methods fabricated these materials, thermal evaporation [7], chemical vapor
deposition [8], and vapor-liquid-solid [9] are the three major vapor methods.
Wang: Science Vol. 291 (2001) p. 1947 [7] Z.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [9] T.J.
Guo: Journal of Crystal Growth Vol. 299 (2007), p. 184 [12] B.M.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [13] S.
Wang: Science Vol. 291 (2001) p. 1947 [7] Z.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [9] T.J.
Guo: Journal of Crystal Growth Vol. 299 (2007), p. 184 [12] B.M.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [13] S.
Online since: February 2012
Authors: Jing Wen Xue, Zhe Wang
Lignin is one of the main chemical components of fibrous materials.
Acknowledgement: The project was funded by Jinan Youth Star Science and Technology Program (2011-2-0312).
Wang, Research Progress of Preparation of Activated Carbons from Plant Biomass Journal of Anhui Agri.
Zhou, Preparation of Lignin Activated Carbon with High Decolorization Power, Natural Science Journal of Xiangtan University, 6(1991), p13 [5] T.
Luo, Study on Preparation of Lignin Activated Carbon with Zinc Chloride,Journal of Anhui Argi.
Acknowledgement: The project was funded by Jinan Youth Star Science and Technology Program (2011-2-0312).
Wang, Research Progress of Preparation of Activated Carbons from Plant Biomass Journal of Anhui Agri.
Zhou, Preparation of Lignin Activated Carbon with High Decolorization Power, Natural Science Journal of Xiangtan University, 6(1991), p13 [5] T.
Luo, Study on Preparation of Lignin Activated Carbon with Zinc Chloride,Journal of Anhui Argi.