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Online since: August 2018
Authors: Shu Wang Duo, Ling Fang Qiu, Xiao Bin Qiu, Zhi Wei Zhou
Experimental
Materials.
Acknowledgements Financial supports from National Natural Science Foundation of China (No. 51363007), National Natural Science Foundation of China (No. 41763020), Natural Science Foundation of Jiangxi Province (No. 20171BAB206008), the Doctoral Scientific Research Foundation of Jiangxi Science and Technology Normal University (No. 2017BSQD003) and Project of Sci-Tech Innovative Team for Nano Functional Materials of Jiangxi Science and Technology Normal University (NO.
Li, Self-powered, visible-light photodetector based on thermally reduced graphene oxide–ZnO (rGO–ZnO) hybrid nanostructure, Journal of Materials Chemistry, 22 (2012) 2589-2595
Sun, High quality graphene oxide–CdS–Pt nanocomposites for efficient photocatalytic hydrogen evolution, Journal of Materials Chemistry, 22 (2012) 2292-2298
Zhao, Graphene oxide modified g-C3N4 hybrid with enhanced photocatalytic capability under visible light irradiation, Journal of Materials Chemistry, 22 (2012) 2721-2726
Acknowledgements Financial supports from National Natural Science Foundation of China (No. 51363007), National Natural Science Foundation of China (No. 41763020), Natural Science Foundation of Jiangxi Province (No. 20171BAB206008), the Doctoral Scientific Research Foundation of Jiangxi Science and Technology Normal University (No. 2017BSQD003) and Project of Sci-Tech Innovative Team for Nano Functional Materials of Jiangxi Science and Technology Normal University (NO.
Li, Self-powered, visible-light photodetector based on thermally reduced graphene oxide–ZnO (rGO–ZnO) hybrid nanostructure, Journal of Materials Chemistry, 22 (2012) 2589-2595
Sun, High quality graphene oxide–CdS–Pt nanocomposites for efficient photocatalytic hydrogen evolution, Journal of Materials Chemistry, 22 (2012) 2292-2298
Zhao, Graphene oxide modified g-C3N4 hybrid with enhanced photocatalytic capability under visible light irradiation, Journal of Materials Chemistry, 22 (2012) 2721-2726
Online since: June 2025
Authors: Ken Aldren S. Usman, Yasmin D.G. Edañol, Rogie I. Bautista, Mark Ely A. Namoro, Princess Vinia Putulin, Aces Joseph L. San Pedro
Methodology
Materials and Methods.
Materials Today: Proceedings
Philippine Journal of Science, 150
Journal of Materials Science & Technology, 76, 1–10
Journal of Materials Science: Materials in Electronics, 31(7), 5324–5335
Materials Today: Proceedings
Philippine Journal of Science, 150
Journal of Materials Science & Technology, 76, 1–10
Journal of Materials Science: Materials in Electronics, 31(7), 5324–5335
Online since: July 2014
Authors: Kai Cui, Ye Yang
The special material composition and structural morphology make it have the physical properties of high porosity, low density and high water content.
Dehydration in a dry environment, cementing material bonding of particles occur dehydration hardening.
Ola: Quarterly Journal of Engineering Geology, Vol. 13(2) (1980), p.87 [12] X.B.
Formoso, et al: Journal of South American Earth Sciences, Vol. 11(4) (1998), p.365 [16] L.D.
Wesley: Journal of Geotechnical Engineering, Vol. 116(4) (1990), p.589
Dehydration in a dry environment, cementing material bonding of particles occur dehydration hardening.
Ola: Quarterly Journal of Engineering Geology, Vol. 13(2) (1980), p.87 [12] X.B.
Formoso, et al: Journal of South American Earth Sciences, Vol. 11(4) (1998), p.365 [16] L.D.
Wesley: Journal of Geotechnical Engineering, Vol. 116(4) (1990), p.589
Online since: March 2026
Authors: Yin Fong Yeong, Mohamad Azmi Bustam, Norwahyu Jusoh, Marhaina Ismail
MOFs are crystalline materials consisting of metal ions or clusters connected by organic ligands containing functional groups, characterized by their uniform porous structures, high surface areas, adjustable channels, and systematically arranged active sites [7].
Yeong, Adsorption of carbon dioxide and methane on cobalt gallate-based metal-organic framework (Co-Gallate): Equilibrium isotherm, thermodynamic and kinetic studies, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 108(2) (2023) 151-163
Chen, Controlling flexibility of metal–organic frameworks, National Science Review 5(6) (2018) 907-919
Gao, Realization of super high adsorption capability of 2D δ-MnO2/GO through intra-particle diffusion, Materials Chemistry and Physics 232 (2019) 374-381
Yaghi, Secondary building units as the turning point in the development of the reticular chemistry of MOFs, Science Advances 4(10) (2018) eaat9180
Yeong, Adsorption of carbon dioxide and methane on cobalt gallate-based metal-organic framework (Co-Gallate): Equilibrium isotherm, thermodynamic and kinetic studies, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 108(2) (2023) 151-163
Chen, Controlling flexibility of metal–organic frameworks, National Science Review 5(6) (2018) 907-919
Gao, Realization of super high adsorption capability of 2D δ-MnO2/GO through intra-particle diffusion, Materials Chemistry and Physics 232 (2019) 374-381
Yaghi, Secondary building units as the turning point in the development of the reticular chemistry of MOFs, Science Advances 4(10) (2018) eaat9180
Online since: November 2012
Authors: Yong Zhi Zhang, Hong Xia Li, Jin Xiang Wang
Journal of Inorganic Materials, Vol. 2(2004), p. 361-366.
Materials Letter, Vol. 3(2002), p. 189-195
Journal of Materials Processing Technology, Vol. 3(2006), p. 275-280
Journal of Xiamen University(Natural Science), Vol. 3(2006), p. 375-378.
(Natural Science Edition), Vol. 6(2010), p. 116-119.
Materials Letter, Vol. 3(2002), p. 189-195
Journal of Materials Processing Technology, Vol. 3(2006), p. 275-280
Journal of Xiamen University(Natural Science), Vol. 3(2006), p. 375-378.
(Natural Science Edition), Vol. 6(2010), p. 116-119.
Online since: September 2013
Authors: Peng Zhang, Ji Xiang Gao, Xiao Bing Dai
Test results show that with the addition of 0.75% nano materials in concrete, the strength loss rate of the concrete after 25 times of freeze-thaw cycle is 3.2%, while that of the concrete without nano materials is 8.6% [12].
It can be concluded that the nano materials can greatly improve the anti-freezing performance of concrete.
Cao: Materials Review.
Xiao: Journal of Functional Materials. 37 (2007), p. 652 [10] L.K.
Li: Journal of Materials in Civil Engineering. 23 (2011), p. 1760 [12] X.L.
It can be concluded that the nano materials can greatly improve the anti-freezing performance of concrete.
Cao: Materials Review.
Xiao: Journal of Functional Materials. 37 (2007), p. 652 [10] L.K.
Li: Journal of Materials in Civil Engineering. 23 (2011), p. 1760 [12] X.L.
Online since: May 2013
Authors: Chien Chang Chou, Ming Tao Chou
The blast furnace plant manufactures steel by ore material.
The electric furnace plant manufactures steel by recycle steel material.
-S., Lee, Increasing and Decreasing with Fuzzy Time Series, Joint Conference on Information Sciences. (2006) 1240 - 1243
-T., Chou, Long-Term Predictive Value Interval with the Fuzzy Time Series, Journal of Marine Science and Technology. 19(5) (2011) 509 - 513
-T., Chou, Fuzzy Forecast Based on Fuzzy Time Series, International Journal of Computer Mathematics. 81(7) (2004) 781 - 789
The electric furnace plant manufactures steel by recycle steel material.
-S., Lee, Increasing and Decreasing with Fuzzy Time Series, Joint Conference on Information Sciences. (2006) 1240 - 1243
-T., Chou, Long-Term Predictive Value Interval with the Fuzzy Time Series, Journal of Marine Science and Technology. 19(5) (2011) 509 - 513
-T., Chou, Fuzzy Forecast Based on Fuzzy Time Series, International Journal of Computer Mathematics. 81(7) (2004) 781 - 789
Online since: June 2014
Authors: Zhu Zhong, Rui Liao, Qiang Cheng, Xia He, Jian Ying Xu
Among non-wood plant raw materials, bagasse is an ideal material for panel production.
Materials and Methods Materials. 1.
Journal of Wood Science, 2005, 51: 648-654
[8] Yimin Wu: Journal of Zhejiang Forestry Science and Technology (In Chinese), 1990, 10(2): 49-50
[10] Nobuhisa Okuda, Masatoshi Sato: Journal of Wood Science, 2004, 50: 53-61.
Materials and Methods Materials. 1.
Journal of Wood Science, 2005, 51: 648-654
[8] Yimin Wu: Journal of Zhejiang Forestry Science and Technology (In Chinese), 1990, 10(2): 49-50
[10] Nobuhisa Okuda, Masatoshi Sato: Journal of Wood Science, 2004, 50: 53-61.
Online since: April 2015
Authors: Hussin Kamarudin, Mohd Mustafa Al Bakri Abdullah, Mohammed Binhussain, Romisuhani Ahmad, Nur Ain Jaya, Andrei Victor Sandu
Palomo:Microporous and Mesoporous Materials Vol. 106 (2007), p.180
[5] A.
Palomo: Microporous and Mesoporous Materials Vol.108 (2008), p. 41 [10] F.
Pelaseyyed: Materials Science and Engineering A 385 (2004) 258–266
Das: Journal of Materials Science Vol. 42 (2007), p. 9366 [12] K.S.
Bishop: Journal of Materials Processing Technology Vol. 198 (2008), p. 31 [13] L.
Palomo: Microporous and Mesoporous Materials Vol.108 (2008), p. 41 [10] F.
Pelaseyyed: Materials Science and Engineering A 385 (2004) 258–266
Das: Journal of Materials Science Vol. 42 (2007), p. 9366 [12] K.S.
Bishop: Journal of Materials Processing Technology Vol. 198 (2008), p. 31 [13] L.
Online since: January 2014
Authors: Justine M. Kalaw, Fortunato B. Sevilla, Rey Alfred G. Rañola
The addition of graphene as filler or as a platform improves the physico-chemical and electrical properties of conventional polymer materials.
In addition it enables to attain a low percolation threshold at lower loading fractions compared to other carbon materials[4].
Therefore it uses less amount of conducting filler and cheaper in contrast to other carbon particle materials.
Methodology Reagents and Materials.
Biological and chemical sensors based on graphene materials.
In addition it enables to attain a low percolation threshold at lower loading fractions compared to other carbon materials[4].
Therefore it uses less amount of conducting filler and cheaper in contrast to other carbon particle materials.
Methodology Reagents and Materials.
Biological and chemical sensors based on graphene materials.