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Online since: April 2021
Authors: Konstantin S. Makarevich, Aleksey V. Zaitsev, Oleg I. Kaminsky
Zaitsevc
Institute of Materials Science of Far Eastern Branch of the Russian Academy of Sciences
(IM FEB RAS), Khabarovsk, Russia
amakarevich7@mail.ru, bkamin_div0@mail.ru, calex-im@mail.ru
Keywords: visible light photo-catalyst, strontium bismuthate, strontium carbonate.
A special place among photocatalysts is occupied by materials obtained on the basis of heterostructured compositions.
Pecharapa, Synthesis and characterization of nitrogen-doped TiO2 and its photo-catalytic activity enhancement under visible light, Proceedings of the Eco-Energy and Materials Science and Engineering Symposium. 9 (2011) 509–510
Mikhailov, Chemistry of bismuth compounds and materials, Novosibirsk: SB RAS. 360 (2001)
Makarevich, On the question of the optimal concentration of benzoquinone when it is used as a radical scavenger, Applied Physics A: Materials Science and Processing. 123(9) (2017) 15
A special place among photocatalysts is occupied by materials obtained on the basis of heterostructured compositions.
Pecharapa, Synthesis and characterization of nitrogen-doped TiO2 and its photo-catalytic activity enhancement under visible light, Proceedings of the Eco-Energy and Materials Science and Engineering Symposium. 9 (2011) 509–510
Mikhailov, Chemistry of bismuth compounds and materials, Novosibirsk: SB RAS. 360 (2001)
Makarevich, On the question of the optimal concentration of benzoquinone when it is used as a radical scavenger, Applied Physics A: Materials Science and Processing. 123(9) (2017) 15
Online since: April 2024
Authors: Anatoliy Samelyuk, Oksana Kornienko, Andrey Ragulya, Maryna Zamula, Valeriy Kolesnichenko, Yuriy Yurchenko, Oleksandr Shyrokov, Tamara Tomila, Andriy Kotko
The development of new materials for various fields of science and technology has always been an important and priority task for scientists around the world.
The development of powder nanotechnologies for creating transparent functional ceramics is one of the promising areas of modern materials science [1-12].
А В Y3+ Ho3+ Er3+ Tm3+ Yb3+ Lu3+ La3+ 1600 1700 1820 1955 2040 – Materials and Methods La2O3 (LaO-1 grade) and Lu2O3 (produced by Merck Corp.) with a content of 99.99% of the main components were used as starting materials.
Perovskite-like materials based on transition and rare-earth metals: laws of chemical bonding and thermal stability / Dissertation on the search for a doctor of chemical sciences degree - St.
Journal of Solid State Chemistry, 156:173–179, 2001 [27] T.S.
The development of powder nanotechnologies for creating transparent functional ceramics is one of the promising areas of modern materials science [1-12].
А В Y3+ Ho3+ Er3+ Tm3+ Yb3+ Lu3+ La3+ 1600 1700 1820 1955 2040 – Materials and Methods La2O3 (LaO-1 grade) and Lu2O3 (produced by Merck Corp.) with a content of 99.99% of the main components were used as starting materials.
Perovskite-like materials based on transition and rare-earth metals: laws of chemical bonding and thermal stability / Dissertation on the search for a doctor of chemical sciences degree - St.
Journal of Solid State Chemistry, 156:173–179, 2001 [27] T.S.
Online since: April 2018
Authors: Thanakorn Wasanapiarnpong, Charusporn Mongkolkachit, Nithiwach Nawaukkaratharnant, Thanataon Pornphatdetaudom
Preparation of Porous Cylindrical Tubes Substrates from Zeolite and Clay for TiO2 Photocatalyst Coating
Nithiwach Nawaukkaratharnant1,a, Thanakorn Wasanapiarnpong1,2,b*,
Charusporn Mongkolkachit3,c, Thanataon Pornphatdetaudom4,d
1Research Unit of Advanced Ceramics, Department of Materials Science, Faculty of Science, Chulalongkorn University, Bangkok, 10330, Thailand
2Center of Excellence on Petrochemical and Materials Technology, Bangkok, 10330, Thailand
3National Metal and Materials Technology Center (MTEC), National Science and Technology-
Development Agency (NSTDA), Pathum Thani 12120, Thailand
4Nuclear Ceramic Laboratory, Department of Nuclear Engineering, Graduate School of Science and Engineering, Tokyo Institute of Technology, Tokyo, Japan
anithiwach.n@hotmail.com, bthanakorn.w@chula.ac.th, ccharuspm@mtec.or.th,
dpornphatdetaudom.t.aa@m.titech.ac.jp
Keywords: Porous substrate, TiO2 coating, Lignin degradation, Photocatalyst.
Moreover, the photocatalyst activity of the combination of TiO2 and zeolite materials was studied under UV irradiation.
Thanks for Research Unit of Advanced Ceramic, Department of Materials Science, Faculty of Science, Chulalongkorn University.
Anpo, Efficient removal of toluene and benzene in gas phase by the TiO2/Y-zeolite hybrid photocatalyst, Journal of Hazardous Materials, 237-238 (2012) 133-139
Vargová, Reticulated macroporous ceramic foam supported TiO2 for photocatalytic applications, Materials Letters, 63 (2009) 461-463
Moreover, the photocatalyst activity of the combination of TiO2 and zeolite materials was studied under UV irradiation.
Thanks for Research Unit of Advanced Ceramic, Department of Materials Science, Faculty of Science, Chulalongkorn University.
Anpo, Efficient removal of toluene and benzene in gas phase by the TiO2/Y-zeolite hybrid photocatalyst, Journal of Hazardous Materials, 237-238 (2012) 133-139
Vargová, Reticulated macroporous ceramic foam supported TiO2 for photocatalytic applications, Materials Letters, 63 (2009) 461-463
Online since: November 2025
Authors: Iuliana Duma, Raluca Faur, Mihai Florea, Andrei Christian Bucur
Introduction
Chemical analysis plays an important role in various fields, including materials science, environmental monitoring, forensics, and quality control in manufacturing.
They are valuable in material sciences for studying lighter atomic elements on surfaces but have limited use in biological sciences.
Non-destructive for surface imaging, but requires special preparation for non-conductive materials.
Materials chemistry and physics, 81(2-3), 345-348
Journal of Vacuum Science & Technology A, 28(1), 77-87
They are valuable in material sciences for studying lighter atomic elements on surfaces but have limited use in biological sciences.
Non-destructive for surface imaging, but requires special preparation for non-conductive materials.
Materials chemistry and physics, 81(2-3), 345-348
Journal of Vacuum Science & Technology A, 28(1), 77-87
Online since: April 2024
Authors: Temitope O. Alonge, Fatai O. Oladoyinbo, Olubunmi Kolawole Akiode, Enock O. Dare, Olayinka J. Olaniyan, David Oluwaseyi Israel
Advanced Materials Research, 626, (2012), 997–1000
Journal of Materials, (2014). 1–9. doi:10.1155/2014/184216
[14] Journal of Colloid and Interface Science, 277(2), 316 326. doi:10.1016/ j.jcis. (2004). 0 4.051 [15] G.
Hill, Nanoarchitectonics for Mesoporous Materials.
Journal of Hazardous Materials, 290 (2015), 117–126.doi:10.1016/j. jhazmat. (2015).02.061 [33] H.J.
Journal of Materials, (2014). 1–9. doi:10.1155/2014/184216
[14] Journal of Colloid and Interface Science, 277(2), 316 326. doi:10.1016/ j.jcis. (2004). 0 4.051 [15] G.
Hill, Nanoarchitectonics for Mesoporous Materials.
Journal of Hazardous Materials, 290 (2015), 117–126.doi:10.1016/j. jhazmat. (2015).02.061 [33] H.J.
Online since: December 2012
Authors: Jing Pei Xie, Zeng Lei Ni, Ai Qin Wang
Which come up with a higher demand on the properties of the materials, traditional materials can not meet the development needs in the field of aerospace and automobile.
Therefore, this can make up for the inherent shortcomings of traditional materials.
So these areas lost load transfer load capacity, the tensile strength of composite materials with particles reunion is lower than SiC particle distributed uniformly[9].
References [1] RENS B,HE X.B,QU X.H: Composites Science and Technology, Vol. 67(2007), p. 2103−2113 [2] Taha M A,El-Mahallawy NA,El-Sabbagh AM: Journal of Materials Processing Technology,Vol. 202(2008), p. 380-385 [3] J.
[5] Jung-ⅡLee,Tae-Whan Hong: Material Science Forum,Vol. 449,(2004), p. 249-251 [6] H YO S.Lee: Journal of Materials Sciences,Vol. 35, (2000), p. 6231-6236 [7] Wang Zhangwei,Song Ming,Sun Chao: Mater.
Therefore, this can make up for the inherent shortcomings of traditional materials.
So these areas lost load transfer load capacity, the tensile strength of composite materials with particles reunion is lower than SiC particle distributed uniformly[9].
References [1] RENS B,HE X.B,QU X.H: Composites Science and Technology, Vol. 67(2007), p. 2103−2113 [2] Taha M A,El-Mahallawy NA,El-Sabbagh AM: Journal of Materials Processing Technology,Vol. 202(2008), p. 380-385 [3] J.
[5] Jung-ⅡLee,Tae-Whan Hong: Material Science Forum,Vol. 449,(2004), p. 249-251 [6] H YO S.Lee: Journal of Materials Sciences,Vol. 35, (2000), p. 6231-6236 [7] Wang Zhangwei,Song Ming,Sun Chao: Mater.
Online since: January 2014
Authors: Yong Qin Wen, Chao Cui
The test raw material and the method
2.1 Test materials
The clay of test taken from Hohhot, a site for the newly piled all disturbed clay, loose soil, soil and its main physical property indexes are shown in table 1.
[7] Qingwen Ma,Ping Xu, etc., Journal of building materials: 2010, 13 (1) : 57-61 [8] Zhiquan Zhang ,Guijuan Zhao, etc.
,natural science edition, 2007, 27 (5) : 20-23 [9] Xianzhi Huang, Xiaohong Bai.
Journal of building materials, 2006, 9 (3) : 291-296
China journal of highway, 2006, 19 (5) : 12-17
[7] Qingwen Ma,Ping Xu, etc., Journal of building materials: 2010, 13 (1) : 57-61 [8] Zhiquan Zhang ,Guijuan Zhao, etc.
,natural science edition, 2007, 27 (5) : 20-23 [9] Xianzhi Huang, Xiaohong Bai.
Journal of building materials, 2006, 9 (3) : 291-296
China journal of highway, 2006, 19 (5) : 12-17
Online since: September 2008
Authors: Tong Lin, Xin Liu, J. Fang, Gang Yao, X.G. Wang
Electrospun Nanofibre Membranes as Wound Dressing Materials
X.
Bhattarai, Journal of Biomedical Materials Research, Part B: Applied Biomaterials,Vol. 67(B) (2) (2003), 675-679. 5.
Kobayashi, Advances in Science and Technology,Vol. 53 (2006), 9-16. 7.
Yoo, Journal of Bioactive and Compatible Polymers,Vol. 22 (5) (2007), 508-524. 10.
Piskin, Journal of Biomedical Materials Research Part B: Applied Biomaterials,Vol.
Bhattarai, Journal of Biomedical Materials Research, Part B: Applied Biomaterials,Vol. 67(B) (2) (2003), 675-679. 5.
Kobayashi, Advances in Science and Technology,Vol. 53 (2006), 9-16. 7.
Yoo, Journal of Bioactive and Compatible Polymers,Vol. 22 (5) (2007), 508-524. 10.
Piskin, Journal of Biomedical Materials Research Part B: Applied Biomaterials,Vol.
Online since: July 2011
Authors: Zheng Xin Yang, Qing Kai Han
Multiferroic material is typical of anisotropic materials, and the magneto-electro-elastic characters can be mutually coupled.
As follows: The SOLID5, SHELL181 element can be used to model for multiferroic materials.
SHELL181 element also can be used to model for multiferroic materials.
In this paper, there are two multiferroic materials each with significant piezoelectric effect and piezomagnetic effect are calculated and analyzed, that is the piezoelectric material PZT-5A and piezomagnetic materials CoFe2O4 (Hereinafter abbreviated as PZT and CFO).
[15] G Harshe, J P Dougherty, R E Newnham, in: Theoretical modeling of multiplayer magnetoelectric composites, volume 3 of International Journal of Applied Electromagnetic Materials, chapter 4(1993).
As follows: The SOLID5, SHELL181 element can be used to model for multiferroic materials.
SHELL181 element also can be used to model for multiferroic materials.
In this paper, there are two multiferroic materials each with significant piezoelectric effect and piezomagnetic effect are calculated and analyzed, that is the piezoelectric material PZT-5A and piezomagnetic materials CoFe2O4 (Hereinafter abbreviated as PZT and CFO).
[15] G Harshe, J P Dougherty, R E Newnham, in: Theoretical modeling of multiplayer magnetoelectric composites, volume 3 of International Journal of Applied Electromagnetic Materials, chapter 4(1993).
Online since: January 2011
Authors: G.J. Shyju, S. Dawn Dharma Roy, C. Sanjeeviraja
Tominaga, Materials Research Bulletin 36 (2001) 1075
Acosta, Solar Energy Materials & Solar Cells 90 (2006) 733
Olvera, Solar Energy Materials & Solar Cells 90 (2006) 2362
Elin Hammarberg , Anna Prodi-Schwab , Claus Feldmann, Journal of Colloid and Interface Science 334 (2009) 29
Ogawa, Materials Research Bulletin 39 (2004) 1821
Acosta, Solar Energy Materials & Solar Cells 90 (2006) 733
Olvera, Solar Energy Materials & Solar Cells 90 (2006) 2362
Elin Hammarberg , Anna Prodi-Schwab , Claus Feldmann, Journal of Colloid and Interface Science 334 (2009) 29
Ogawa, Materials Research Bulletin 39 (2004) 1821