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Online since: May 2012
Authors: Masashi Kato, Tomonari Yasuda, Masaya Ichimura
The water splitting by semiconductor materials can generate hydrogen without CO2 emission.
However, the hydrogen conversion efficiency using conventional materials is not high enough, or the materials corrode easily.
For example, metal oxides are conventional water splitting materials without corrosion in electrolytes.
P-type materials are generally more stable than n-type materials for water splitting, and thus p-type SiC could also be resistant to corrosion.
Choyke, Materials Science and Enginerring B61-62 (1999) 229-233 [3] C.
However, the hydrogen conversion efficiency using conventional materials is not high enough, or the materials corrode easily.
For example, metal oxides are conventional water splitting materials without corrosion in electrolytes.
P-type materials are generally more stable than n-type materials for water splitting, and thus p-type SiC could also be resistant to corrosion.
Choyke, Materials Science and Enginerring B61-62 (1999) 229-233 [3] C.
Online since: July 2015
Authors: Xing Yong Gu, Shao Ling Wu, Ting Luo, Jun Ming Wu
Beijing, China Building Materials Industry Press.(1998)218-219
Journal of Inorganic Materials.6(2003) 1205-1209
Materials Science & Engineering.5(2009) 804-808
Food Science.8(2002)77-80
Materials Review.1(2006)84-86.
Journal of Inorganic Materials.6(2003) 1205-1209
Materials Science & Engineering.5(2009) 804-808
Food Science.8(2002)77-80
Materials Review.1(2006)84-86.
Online since: January 2012
Authors: Hao Ding, Xi Feng Hou, Shou Ren Yu, Can Ye
Thus sericite/TiO2 composites materials are very efficient replacement of white titanium powder.
Nicole, et al.: Chemistry of Materials 22 (2010) 4406-4413 [5] M.
Nemati, et al.: International Journal of Environmental Science and Technology 8 (2011) 545-552 [12] X.D.
Marcaide, et al.: Solar Energy Materials and Solar Cells 94 (2010) 1081-1088 [14] R.
Wang, et al.: Materials Chemistry and Physics 103 (2007) 230-234
Nicole, et al.: Chemistry of Materials 22 (2010) 4406-4413 [5] M.
Nemati, et al.: International Journal of Environmental Science and Technology 8 (2011) 545-552 [12] X.D.
Marcaide, et al.: Solar Energy Materials and Solar Cells 94 (2010) 1081-1088 [14] R.
Wang, et al.: Materials Chemistry and Physics 103 (2007) 230-234
Online since: November 2021
Authors: Dawid Szyba
The microstructures of thick-film materials are rarely the same as those of bulk materials [1].
For that reason, materials science can be defined as the discipline that studies the relationship between material structure and properties.
[2] Ashby M., Cope E., Cebon D., Informatics for Materials Science and Engineering Data-driven Discovery for Accelerated Experimentation and Application: Materials Selection for Engineering Design.
Reference Module in Materials Science and Materials Engineering.
Science Direct 2016. 1-6
For that reason, materials science can be defined as the discipline that studies the relationship between material structure and properties.
[2] Ashby M., Cope E., Cebon D., Informatics for Materials Science and Engineering Data-driven Discovery for Accelerated Experimentation and Application: Materials Selection for Engineering Design.
Reference Module in Materials Science and Materials Engineering.
Science Direct 2016. 1-6
Online since: November 2015
Authors: Nik Mohd Azmi, Wedianti Shualdi, Nurul Huda Yusoff, Nor Adhila Muhammad, Khairuldin Mohd Isha
Thermally Stable Encapsulation Material Based on Green and Red Lanthanide Phosphor for White Light Emitting Diodes
Wedianti Shualdi*, Nik Mohd Azmi Nik Abd Aziz, Nurul Huda Yusoff,
Nor Adhila Muhammad, Khairuldin Mohd Isha
Energy Materials Section, Advanced Materials Research Center (AMREC), Standards and Industrial Research Institute Malaysia (SIRIM) Berhad, Lot 34, Jalan Hi-Tech 2/3, Kulim Hi-Tech Park, 09000 Kulim, Kedah, Malaysia
Email: wedianti@sirim.my
Keywords: white LED, phosphor material, lanthanide based complex
Abstract
This study reported thermal stability of hybrid sol-gel encapsulation materials doped with lanthanides complexes for generating white light.
At T=350oC, the weight loss of samples are very significant due to decomposition of organic materials in VTES:TEOS sol-gel matrices.
Acknowledgment This work was supported by the Ministry of Science, Technology and Innovation (MOSTI), Malaysia with grant file No. 03-03-02-SF0279.
Bril, “Energy Transfer fron Ce3+ to Tb3+ in Scandium Borate”, Journal of Luminescence, Vol 3, Issue 1 (1970) 18-20 [5] L.
[7] Seung-Yeon Kwak, Na Ree Kim and Byeong-Soo Bae, “Dye-Bridged Hybrid Materials for Robust and High-Performance Wavelength Converter of White LEDs”, SID Symposium Digest of Technical Papers, Volume 43, Issue 1, (2012) 1314–1317
At T=350oC, the weight loss of samples are very significant due to decomposition of organic materials in VTES:TEOS sol-gel matrices.
Acknowledgment This work was supported by the Ministry of Science, Technology and Innovation (MOSTI), Malaysia with grant file No. 03-03-02-SF0279.
Bril, “Energy Transfer fron Ce3+ to Tb3+ in Scandium Borate”, Journal of Luminescence, Vol 3, Issue 1 (1970) 18-20 [5] L.
[7] Seung-Yeon Kwak, Na Ree Kim and Byeong-Soo Bae, “Dye-Bridged Hybrid Materials for Robust and High-Performance Wavelength Converter of White LEDs”, SID Symposium Digest of Technical Papers, Volume 43, Issue 1, (2012) 1314–1317
Online since: April 2013
Authors: Ai Hua Tian, Dong Hui Shen
It is found that the DMFC performance of the membranes modified by two kinds of catalytic materials are better than that of the bare Nafion when operated with 2.0 M methanol.
In this research, two kinds of catalytic materials, platinum and palladium are used to modify Nafion.
In order to increase the compatibility between the Pt(Pd) and polymer, some organic materials are needed to bind well with both Nafion and Pt(Pd).
Prabhuram, Journal of Membrane Science, 2006. 283(1-2): p. 219
[7] Sun, H., et al., Journal of Membrane Science, 2005. 259(1-2): p. 27
In this research, two kinds of catalytic materials, platinum and palladium are used to modify Nafion.
In order to increase the compatibility between the Pt(Pd) and polymer, some organic materials are needed to bind well with both Nafion and Pt(Pd).
Prabhuram, Journal of Membrane Science, 2006. 283(1-2): p. 219
[7] Sun, H., et al., Journal of Membrane Science, 2005. 259(1-2): p. 27
Online since: February 2012
Authors: Xiao Sun, Qi Gen Zhong, Bin Liu, Gui Qi Wang
Modeling for Dynamic Topology of Equipment Support Information Network with Certain Equipment Materials
Xiao Sun1,2, a, Bin Liu1,b, Guiqi Wang1,c and Qigen Zhong1,d
1 Ordnance Engineering College, Shijiazhuang, Hebei, 050003
2 Science and Technology on Complex Systems Simulation Laboratory, Beijing, 100101
a xsunxiao@hotmail.com, bliubin957@163.com, c275770622@163.com, dgigenzh34@163.com
Keywords: Equipment Support; Information Network; Dynamic; Behavior; Modeling;Equipment Materials
Abstract.
Acknowledgement Supported by National Natural Science Foundation of China (60904071) Reference [1] Repair and maintenance contracts for aircraft supporting coalition forces in Afghanistan, Iraq, and Kuwait[R].
International Journal of Manufacturing Technology and Management. 2007, 10(1): 41-56
Journal of System Simulation, 2007, 19(5):1165-1169
Computer Science, 2009,36(10):5-10
Acknowledgement Supported by National Natural Science Foundation of China (60904071) Reference [1] Repair and maintenance contracts for aircraft supporting coalition forces in Afghanistan, Iraq, and Kuwait[R].
International Journal of Manufacturing Technology and Management. 2007, 10(1): 41-56
Journal of System Simulation, 2007, 19(5):1165-1169
Computer Science, 2009,36(10):5-10
Online since: March 2023
Authors: M.V. Nachevskiy, L.S. Shibryaeva, Ivetta A. Varyan, Maria V. Podzorova
It is found that, depending on the method of obtaining a biopolymer-based material, its ability to diffuse water and water absorption is different – non-woven materials have higher performance than film materials.
In this case, special attention is paid to non-woven and film materials.
We should also highlight materials using synthetic polymers.
Acknowledgments The materials under investigation were studied with the equipment of the common use centers at the Emanuel Institute of Biochemical Physics of the Russian Academy of Sciences and the Plekhanov Russian University of Economics.
Ohkita, Thermal degradation and biodegradability of poly(lactic acid), corn starch biocomposites, Journal of Applied Polymer Science. № 100 (2006) 3009-3017
In this case, special attention is paid to non-woven and film materials.
We should also highlight materials using synthetic polymers.
Acknowledgments The materials under investigation were studied with the equipment of the common use centers at the Emanuel Institute of Biochemical Physics of the Russian Academy of Sciences and the Plekhanov Russian University of Economics.
Ohkita, Thermal degradation and biodegradability of poly(lactic acid), corn starch biocomposites, Journal of Applied Polymer Science. № 100 (2006) 3009-3017
Online since: October 2014
Authors: Agripa Hamweendo, Ionel Botef
Consequently, during operation, the materials of individual components degrade.
Grant, Aerospace Materials, IOP Publishing Ltd., Bristol (2001)
Progress in Materials Science, 5 (2007) 1091–1173
Li., Influence of Dealloying Solution on the Microstructure of Monolithic Nanoporous Copper through Chemical Dealloying of Al 30 at.% Cu Alloy, International Journal of Electrochemical Science, 7 (2014)7993-8006
Botef, Cold gas dynamic spraying of WC-Ni cemented carbide coatings, at 10th International Conference on the Science of Hard Materials, Mexico, (2014).
Grant, Aerospace Materials, IOP Publishing Ltd., Bristol (2001)
Progress in Materials Science, 5 (2007) 1091–1173
Li., Influence of Dealloying Solution on the Microstructure of Monolithic Nanoporous Copper through Chemical Dealloying of Al 30 at.% Cu Alloy, International Journal of Electrochemical Science, 7 (2014)7993-8006
Botef, Cold gas dynamic spraying of WC-Ni cemented carbide coatings, at 10th International Conference on the Science of Hard Materials, Mexico, (2014).
Online since: May 2020
Authors: Valeriy I. Ivanov, L.A. Konevtsov, V.F. Aulov
Electric spark of alloying – ESA – from the standpoint of materialogy, a new stage in the development of the materials science, is a method of surface hardening that refers to technologies meeting the new development vector of the materials science, including its most important sections – surface materialogy.
The study of the surface in modern materials science becomes increasingly distinct in a separate section of the surface materialogy.
At the same time, unlike materials science, non-traditional raw materials and technologies can be used to obtain new materials in the materialogy of the surface, taking into account the entropy-ecological factor [2, 3].
The ESA method corresponds to the new vector of the materials science development, its most important section – surface materials, which includes subsections on the study and improvement of the properties of the products executive surfaces, which requires further studies. 2.
Egorov, Electrode materials for electrospark doping, M .: Science, 1988, 224 p
The study of the surface in modern materials science becomes increasingly distinct in a separate section of the surface materialogy.
At the same time, unlike materials science, non-traditional raw materials and technologies can be used to obtain new materials in the materialogy of the surface, taking into account the entropy-ecological factor [2, 3].
The ESA method corresponds to the new vector of the materials science development, its most important section – surface materials, which includes subsections on the study and improvement of the properties of the products executive surfaces, which requires further studies. 2.
Egorov, Electrode materials for electrospark doping, M .: Science, 1988, 224 p