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Online since: September 2013
Authors: Wei Qiang Fan, Wei Dong Shi, Dan Yan
Cuprous oxide (Cu2O) is a p-type semiconductor with a direct band gap of 2.0 eV [3,4] and has potential applications in solar energy conversion, electrode materials, sensors, and photocatalytic degradation [5].
As compared with 8-facet, 26-facet Cu2O microcrystal have more edges and corners which could improve the photocatalytic activity, as demonstrated in previous studies on other materials, such as TiO2 and ZnO.
Huang: Advanced Functional Materials, vol. 17, pp. 3773-3780, Dec 2007
Xia: Advanced Materials, vol. 19, pp. 3385-3391, Oct 2007
Xiao: Journal of Materials Chemistry A, vol. 1, pp. 2418-2425, 2013.
As compared with 8-facet, 26-facet Cu2O microcrystal have more edges and corners which could improve the photocatalytic activity, as demonstrated in previous studies on other materials, such as TiO2 and ZnO.
Huang: Advanced Functional Materials, vol. 17, pp. 3773-3780, Dec 2007
Xia: Advanced Materials, vol. 19, pp. 3385-3391, Oct 2007
Xiao: Journal of Materials Chemistry A, vol. 1, pp. 2418-2425, 2013.
Online since: March 2011
Authors: Fu Cheng Bao, Wen Jing Guo, Zheng Wang, Liang Chang, Li Gao
Materials and Methods
Materials.
Yang: Journal of Applied Polymer Science, Vol. 99(2006), p. 1346 [7] A.
Yaginuma: Journal of Applied Polymer Science, Vol. 92(2002), p.3857 [12] T.
Dubois: Journal of Applied Polymer Science, Vol. 72(1999), p. 477 [15] H.
Boom: Journal of Applied Polymer Science, Vol. 107(2008), p. 2 [16] M.
Yang: Journal of Applied Polymer Science, Vol. 99(2006), p. 1346 [7] A.
Yaginuma: Journal of Applied Polymer Science, Vol. 92(2002), p.3857 [12] T.
Dubois: Journal of Applied Polymer Science, Vol. 72(1999), p. 477 [15] H.
Boom: Journal of Applied Polymer Science, Vol. 107(2008), p. 2 [16] M.
Online since: March 2007
Authors: Naoki Omura, Yoshiki Mizutani, Kenji Miwa, Takuya Tamura
This process has also been applied to create non-equilibrium state metallic materials such as
metallic glasses.
The addition of refiners makes the recycling of used materials difficult.
Ohashi, Journal of Japan Foundry Engineering Society 71 (1999) 98-103
Miwa, Nature Materials 4 (2005) 289-292
Miwa, Materials Transactions 46 (2005) 1918-1922
The addition of refiners makes the recycling of used materials difficult.
Ohashi, Journal of Japan Foundry Engineering Society 71 (1999) 98-103
Miwa, Nature Materials 4 (2005) 289-292
Miwa, Materials Transactions 46 (2005) 1918-1922
Online since: September 2016
Authors: Pavel Hutař, Luboš Náhlík, Kateřina Štegnerová, Zdeněk Majer, Raul Bermejo, Martin Pletz
Introduction
Nowadays, the composite materials can be found in almost all engineering applications.
A considerable part consists of materials based on ceramics.
Nahlik, Mechanics of Composites Materials Vol. 49 (2013), p. 475
Woodhams: Journal of Applied Polymer Science Vol. 18 (1974), p. 1639
Knesl, Key Engineering Materials Vol. 592-593 (2014), p. 445
A considerable part consists of materials based on ceramics.
Nahlik, Mechanics of Composites Materials Vol. 49 (2013), p. 475
Woodhams: Journal of Applied Polymer Science Vol. 18 (1974), p. 1639
Knesl, Key Engineering Materials Vol. 592-593 (2014), p. 445
Online since: April 2016
Authors: Jaromir Hubálek, Hana Kynclová, Jan Prášek, Jiří Smilek, Martina Klučáková, Petr Sedlacek
Experimental
Materials and methods
Aluminium foil (99.999 %, Goodfellow, UK), sulphuric acid (H2SO4, 96 % p.a., Penta), oxalic acid ((COOH)2, p.a.
The authors thank the Ministry of Education, Youth and Sports of Czech Republic for the support of the project Sustainability and Development REG LO1211 addressed to the Materials Research Center at FCH VUT.
References [1] Vida-Simiti I, Nemes D, Jumate N, et al.: Jom, 64 (2012), 10, 1143-1147 [2] Sulka G D and Parkola K G: Thin Solid Films, 515 (2006), 1, 338-345 [3] Masuda H and Fukuda K: Science, 268 (1995), 5216, 1466-1468 [4] Gultepe E, Nagesha D, Sridhar S, et al.: Advanced Drug Delivery Reviews, 62 (2010), 3, 305-315 [5] Ding G Q, Zheng M J, Xu W L, et al.: Nanotechnology, 16 (2005), 8, 1285-1289 [6] Pancholi A, Stoleru V G and Kell C D: Nanotechnology, 18 (2007), 21, [7] Lim J H and Wiley J B: Journal of Nanoscience and Nanotechnology, 15 (2015), 1, 633-641 [8] Zhang J P, Kielbasa J E and Carroll D L: Materials Chemistry and Physics, 122 (2010), 1, 295-300 [9] Hrdy R, Kynclova H, Drbohlavova J, et al.: International Journal of Electrochemical Science, 8 (2013), 4, 4384-4396 [10] Kynclova H, Pribyl J, Hrdy R, et al. (2014).
[11] Poinern G E J, Ali N and Fawcett D: Materials, 4 (2011), 3, 487-526 [12] Treccani L, Klein T Y, Meder F, et al.: Acta Biomaterialia, 9 (2013), 7, 7115-7150 [13] Stroeve P and Ileri N: Trends in Biotechnology, 29 (2011), 6, 259-266 [14] Schneider J J, Engstler J, Budna K P, et al.: European Journal of Inorganic Chemistry, 2005 (2005), 12, 2352-2359 [15] Santos A, Kumeria T and Losic D: Materials, 7 (2014), 4297-4320 [16] Kant K, Yu J X, Priest C, et al.: Analyst, 139 (2014), 5, 1134-1140 [17] de la Escosura-Muniz A, Chunglok W, Surareungchai W, et al.: Biosensors & Bioelectronics, 40 (2013), 1, 24-31 [18] Lin K C, Kunduru V, Bothara M, et al.: Biosensors & Bioelectronics, 25 (2010), 10, 2336-2342 [19] Deng J J and Toh C S: Sensors, 13 (2013), 6, 7774-7785 [20] Kant K, Priest C, Shapter J G, et al.: Electrochimica Acta, 139 (2014), 225-231 [21] Cheow P-S, Zhi E, Ting C, et al.: Electrochimica Acta, 53 (2008), 14, 4669-4673 [22] Osmanbeyoglu H U, Hur T B and Kim H K: Journal
of Membrane Science, 343 (2009), 1-2, 1-6 [23] Boss C, Meurville E, Sallese J M, et al.: Journal of Membrane Science, 401 (2012), 217-221 [24] Zaraska L, Kurowska E, Sulka G D, et al.: Journal of Solid State Electrochemistry, 16 (2012), 11, 3611-3619 [25] Tripathy J and Wiley J B: Journal of Solid State Electrochemistry, 19 (2015), 5, 1447-1452 [26] Tian M L, Xu S Y, Wang J G, et al.: Nano Letters, 5 (2005), 4, 697-703
The authors thank the Ministry of Education, Youth and Sports of Czech Republic for the support of the project Sustainability and Development REG LO1211 addressed to the Materials Research Center at FCH VUT.
References [1] Vida-Simiti I, Nemes D, Jumate N, et al.: Jom, 64 (2012), 10, 1143-1147 [2] Sulka G D and Parkola K G: Thin Solid Films, 515 (2006), 1, 338-345 [3] Masuda H and Fukuda K: Science, 268 (1995), 5216, 1466-1468 [4] Gultepe E, Nagesha D, Sridhar S, et al.: Advanced Drug Delivery Reviews, 62 (2010), 3, 305-315 [5] Ding G Q, Zheng M J, Xu W L, et al.: Nanotechnology, 16 (2005), 8, 1285-1289 [6] Pancholi A, Stoleru V G and Kell C D: Nanotechnology, 18 (2007), 21, [7] Lim J H and Wiley J B: Journal of Nanoscience and Nanotechnology, 15 (2015), 1, 633-641 [8] Zhang J P, Kielbasa J E and Carroll D L: Materials Chemistry and Physics, 122 (2010), 1, 295-300 [9] Hrdy R, Kynclova H, Drbohlavova J, et al.: International Journal of Electrochemical Science, 8 (2013), 4, 4384-4396 [10] Kynclova H, Pribyl J, Hrdy R, et al. (2014).
[11] Poinern G E J, Ali N and Fawcett D: Materials, 4 (2011), 3, 487-526 [12] Treccani L, Klein T Y, Meder F, et al.: Acta Biomaterialia, 9 (2013), 7, 7115-7150 [13] Stroeve P and Ileri N: Trends in Biotechnology, 29 (2011), 6, 259-266 [14] Schneider J J, Engstler J, Budna K P, et al.: European Journal of Inorganic Chemistry, 2005 (2005), 12, 2352-2359 [15] Santos A, Kumeria T and Losic D: Materials, 7 (2014), 4297-4320 [16] Kant K, Yu J X, Priest C, et al.: Analyst, 139 (2014), 5, 1134-1140 [17] de la Escosura-Muniz A, Chunglok W, Surareungchai W, et al.: Biosensors & Bioelectronics, 40 (2013), 1, 24-31 [18] Lin K C, Kunduru V, Bothara M, et al.: Biosensors & Bioelectronics, 25 (2010), 10, 2336-2342 [19] Deng J J and Toh C S: Sensors, 13 (2013), 6, 7774-7785 [20] Kant K, Priest C, Shapter J G, et al.: Electrochimica Acta, 139 (2014), 225-231 [21] Cheow P-S, Zhi E, Ting C, et al.: Electrochimica Acta, 53 (2008), 14, 4669-4673 [22] Osmanbeyoglu H U, Hur T B and Kim H K: Journal
of Membrane Science, 343 (2009), 1-2, 1-6 [23] Boss C, Meurville E, Sallese J M, et al.: Journal of Membrane Science, 401 (2012), 217-221 [24] Zaraska L, Kurowska E, Sulka G D, et al.: Journal of Solid State Electrochemistry, 16 (2012), 11, 3611-3619 [25] Tripathy J and Wiley J B: Journal of Solid State Electrochemistry, 19 (2015), 5, 1447-1452 [26] Tian M L, Xu S Y, Wang J G, et al.: Nano Letters, 5 (2005), 4, 697-703
Online since: December 2022
Authors: Yuan Long Chen, Quan Yun Liu, Xiang Li
Materials Today: Proceedings, 2020, 27(3):27082712.https://doi.org/10.1016/j.matpr. 2019.12.188
[3] Yang F, Zhang J, Zhao S, et al.
Materials Today: Proceedings, 2020, 33(3):1626-1631.https://sci-hub.ee/10.1016/j.matpr.2020.06.143
Materials and Manufacturing Processes, 2020, 35(4):1-42. https://doi.org/10.1080/10426914.2020.1711922
Machining Science and Technology, 2022, https://doi.org/10.1080/10910344.2022.2044855
Metals-Open Access Metallurgy Journal, 2021, 11(2):247.
Materials Today: Proceedings, 2020, 33(3):1626-1631.https://sci-hub.ee/10.1016/j.matpr.2020.06.143
Materials and Manufacturing Processes, 2020, 35(4):1-42. https://doi.org/10.1080/10426914.2020.1711922
Machining Science and Technology, 2022, https://doi.org/10.1080/10910344.2022.2044855
Metals-Open Access Metallurgy Journal, 2021, 11(2):247.
Online since: February 2014
Authors: Xiang Tian Xu, Jun Hong Yuan, Rui Qiang Bai
And the strength of ice increase linearly with increasing of confining pressure in phase 1, which is similar to other granular materials such as soil.
Journal of Glaciology, Vol. 28 (1982), p. 171-177
Journal of Glaciology.
Journal of Glaciology, Vol. 41(1995), p. 528-540
Cold Regions Science and Technology, Vol. 69 (2011), p. 98-104
Journal of Glaciology, Vol. 28 (1982), p. 171-177
Journal of Glaciology.
Journal of Glaciology, Vol. 41(1995), p. 528-540
Cold Regions Science and Technology, Vol. 69 (2011), p. 98-104
Online since: December 2014
Authors: Yang Yang, Xue Li Feng, Chen Guang Zuo, Kai Xuan Zhou, Xiangchun Liu
Research on the molten nitrate salt thermal properties based on solar thermal utilization
Yang Yang1,a, Xiangchun Liu2,b,* , Xueli Feng3,c, Kaixuan Zhou4,d,
Chen’guang Zuo5,e
1,2,3,4,5,School. of Material Science and Engineering, Xi’an University of Science and Technology, China
a yyxhfw@126.com, *,b liuxc@126.com, c 1004882377@qq.com, d 1075273887@qq.com, ezuozuoyanyan@163.com
* Corresponding author.
Experimental .Experimental Materials and Equipment Sodium nitrate, potassium nitrate and lithium nitrate are analytical grade.
Acknowledgments The work was supported by National Natural Science Foundation of China (Project 51072162 and 51372197) and the Scientific Research Program Funded by Shaanxi Provincial Education Department (Project 14JK1483).
Ma: .Journal of Beijing University of Technology, Vol. 33 (2007) No.1, p.62 [2] Keamey D.
[6] Bradshaw RW, Meeker DE: Journal of Solar Energy Mater9ials, Vol.21 (1990) No.1, p.51 [7] B.
Experimental .Experimental Materials and Equipment Sodium nitrate, potassium nitrate and lithium nitrate are analytical grade.
Acknowledgments The work was supported by National Natural Science Foundation of China (Project 51072162 and 51372197) and the Scientific Research Program Funded by Shaanxi Provincial Education Department (Project 14JK1483).
Ma: .Journal of Beijing University of Technology, Vol. 33 (2007) No.1, p.62 [2] Keamey D.
[6] Bradshaw RW, Meeker DE: Journal of Solar Energy Mater9ials, Vol.21 (1990) No.1, p.51 [7] B.
Online since: October 2010
Authors: Yu Hua Zhu
Journal of Applied Optics, Issue 5(2006), p. 376-379+404, In Chinese
Journal of Tongji University(Natural Science), Issue 10(2007), p. 1425-1429, In Chinese
Journal of Materials Engineering, Issue S2(2009), p. 79-82, In Chinese
Science in China,Ser.A, Vol. 28(1998), p. 373-378 [7] Guide Tang, Denglu Hou, Xiangfu Nie.
Journal of Beijing Normal University (Natural Science).
Journal of Tongji University(Natural Science), Issue 10(2007), p. 1425-1429, In Chinese
Journal of Materials Engineering, Issue S2(2009), p. 79-82, In Chinese
Science in China,Ser.A, Vol. 28(1998), p. 373-378 [7] Guide Tang, Denglu Hou, Xiangfu Nie.
Journal of Beijing Normal University (Natural Science).
Online since: February 2011
Authors: Ji Tao Du, Mei Yang
μ=0.1: (9)
For the working hardening materials m´is in the following Eq.10:
(10)
Experiment design and data analysis.
Li, e.g.Journal of Plasticity Engineering, 2001,Vol.8(2001),p.40-42
Dissertation, University of Shanghai for Science and Technology, 2003
Journal of Iron and Steel Research.International, Vol. 11(2004).p. 44-49
Chinese Journal of Mechanical Engineering, Vol.40(2004), p.177-180
Li, e.g.Journal of Plasticity Engineering, 2001,Vol.8(2001),p.40-42
Dissertation, University of Shanghai for Science and Technology, 2003
Journal of Iron and Steel Research.International, Vol. 11(2004).p. 44-49
Chinese Journal of Mechanical Engineering, Vol.40(2004), p.177-180