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Online since: May 2013
Authors: Wei Min Shi, Jun Qian, Jing Jin, Ji Rong Li, Yang Liao
Aluminum-induced crystalization of amorphous silicon films deposited by megnetron sputtering
Jun Qian1,a, Weimin Shi1,b, Jing Jin1,c, Jirong Li1,d, Yang liao1,e
1School of Material Science and Engineering, Shanghai University, 149 Yanchang Rd., Shanghai, China, 200072
aadele1900@126.com, bwmshi@mail.shu.edu.cn, cjjin@shu.edu.cn,dlijirong890209@sina.com, esunny1172@shu.edu.cn
Key Words: Amorphous Si, aluminum-induced crystallization, Poly-silicon
Abstracts.
Fuhs:Aluminum-induced crystallization of amorphous silicon , Journal of Non-Crystalline Solids, vol. 299, (2002),p. 5
Shirai: Rapid crystallization of amorphous silicon utilizing a very-high-frequency microplasma jet for Si thin-film solar cells,Solar Energy Materials and Solar Cells, vol. 93, (2009), p. 1154-1157
Kim: Metal induced crystallization of amorphous silicon by using NiCl2 vapor, Journal of the Korean Physical Society, vol. 51, (Jul 2007), p. 84-87
Lee: Crystallization of silicon films by new metal mediated mechanism, Journal of Materials Science: Materials in Electronics, vol. 21, (2009).p. 270-277
Fuhs:Aluminum-induced crystallization of amorphous silicon , Journal of Non-Crystalline Solids, vol. 299, (2002),p. 5
Shirai: Rapid crystallization of amorphous silicon utilizing a very-high-frequency microplasma jet for Si thin-film solar cells,Solar Energy Materials and Solar Cells, vol. 93, (2009), p. 1154-1157
Kim: Metal induced crystallization of amorphous silicon by using NiCl2 vapor, Journal of the Korean Physical Society, vol. 51, (Jul 2007), p. 84-87
Lee: Crystallization of silicon films by new metal mediated mechanism, Journal of Materials Science: Materials in Electronics, vol. 21, (2009).p. 270-277
Online since: July 2017
Authors: Ion Bogdan Codorean, Florin Diaconu, Dragos Popescu, Alexandru Cirlan, Stefan Mitulescu, Eduard Cernat, Stefania Tanase
Due to the mentioned imperfections of both synthetic and natural materials, it has been proposed a scaffold biopolymer, the silk fibrous protein [28] or fibrous artificial hydrogels [29].
Hydrogel materials used in cartilage tissue engineering have been rarely tested in meniscus engineering.
Materials and methods Between January 2013 and August 2014, 10 patients underwent arthroscopic meniscal scaffold replacement, using Actifit®.
M., Meniscus repair and regeneration: review on current methods and research potential, European Cells and Materials, 26 (2013) 150-170
[7] Dodds J.A., Arnoczky S.P., Basic Science – Meniscus, in: Johnson, D.
Hydrogel materials used in cartilage tissue engineering have been rarely tested in meniscus engineering.
Materials and methods Between January 2013 and August 2014, 10 patients underwent arthroscopic meniscal scaffold replacement, using Actifit®.
M., Meniscus repair and regeneration: review on current methods and research potential, European Cells and Materials, 26 (2013) 150-170
[7] Dodds J.A., Arnoczky S.P., Basic Science – Meniscus, in: Johnson, D.
Online since: August 2019
Authors: Fitrilawati Fitrilawati, Ayi Bahtiar, Norman Syakir, Vika Marcelina, Diyan Unmu Dzujah, Yeni Wahyuni Hartati
Zhao, Graphene-based materials as supercapacitor electrodes, J.
Bubeck, Reduction Kinetics of Thermally reduced graphene oxide thin films, Material Science Forum 827 (2015) 317-320
Hidayat, Fitrilawati, Characteristic of thermally reduced graphene oxide as supercapacitors electrode materials, IOP Conf.
Series: Material Science and Engineering 196 (2017) 012034
Series: Material Science and Engineering 196 (2017) 012027
Bubeck, Reduction Kinetics of Thermally reduced graphene oxide thin films, Material Science Forum 827 (2015) 317-320
Hidayat, Fitrilawati, Characteristic of thermally reduced graphene oxide as supercapacitors electrode materials, IOP Conf.
Series: Material Science and Engineering 196 (2017) 012034
Series: Material Science and Engineering 196 (2017) 012027
Online since: December 2024
Authors: Olaitan Lukman Akanji, Sadiq Raji, Abimbola Patricia I. Popoola
This is the steady deterioration of materials, particularly metals, via reactions with other molecules in their surroundings.
However, the cost and availability of materials restrict the choice of protective techniques.
Materials, 16(8), p.2954. https://doi.org/10.3390/ma16082954 [21] Fayomi, O.S.I. and Popoola, A.P.I., 2015.
Journal of materials engineering and performance, 11, pp.46-50. https://doi.org/10.1007/s11665-002-0007-1 [42] Blustein, G., Romagnoli, R., Jaén, J.A., Di Sarli, A.R. and Del Amo, B., 2006.
Journal of materials engineering and performance, 22, pp.548-556. https://doi.org/10.1007/s11665-012-0262-8 [50] Ahamad, I. and Quraishi, M.A., 2010.
However, the cost and availability of materials restrict the choice of protective techniques.
Materials, 16(8), p.2954. https://doi.org/10.3390/ma16082954 [21] Fayomi, O.S.I. and Popoola, A.P.I., 2015.
Journal of materials engineering and performance, 11, pp.46-50. https://doi.org/10.1007/s11665-002-0007-1 [42] Blustein, G., Romagnoli, R., Jaén, J.A., Di Sarli, A.R. and Del Amo, B., 2006.
Journal of materials engineering and performance, 22, pp.548-556. https://doi.org/10.1007/s11665-012-0262-8 [50] Ahamad, I. and Quraishi, M.A., 2010.
Online since: December 2013
Authors: Yudy Surya Irawan, Shigeyuki Haruyama, Ken Kaminishi, Aminnudin Aminnudin, Pratiko Pratiko, Anindito Purnowidodo
Journal of Materials Processing Technology, 123(January), 251-257
Materials Science and Engineering: A, 491(1-2), 501–506. doi:10.1016/j.msea.2008.04.024 [4] Callister, William D; David G.
Materials Science and Engineering, 107, 73-80
Materials Science and Engineering A, 411, 239–242. doi:10.1016/j.msea.2005.08.186 [11] Stolyarov, V.
Materials [15] Valiev, R.
Materials Science and Engineering: A, 491(1-2), 501–506. doi:10.1016/j.msea.2008.04.024 [4] Callister, William D; David G.
Materials Science and Engineering, 107, 73-80
Materials Science and Engineering A, 411, 239–242. doi:10.1016/j.msea.2005.08.186 [11] Stolyarov, V.
Materials [15] Valiev, R.
Online since: July 2024
Authors: Nazatul Liana Sukiman, A.S.M. Abdul Haseeb, Nur Amirah Mohd Zahri, Tadashi Ariga, Yukio Miyashita
Experimental Details
Materials and Methods.
Bhadeshia: submitted to Materials Science and Engineering A (2008) [18] J.H.
Sukiman: submitted to Material Science Technology (2019) [27] Z.
Ghasimakbari: submitted to Procedia Materials Science (2015) [30] M.
Hamdi: submitted to Key Engineering Materials (2016)
Bhadeshia: submitted to Materials Science and Engineering A (2008) [18] J.H.
Sukiman: submitted to Material Science Technology (2019) [27] Z.
Ghasimakbari: submitted to Procedia Materials Science (2015) [30] M.
Hamdi: submitted to Key Engineering Materials (2016)
Online since: June 2012
Authors: Qiang Xu, Shi Zhen Zhu, Zhen Yu Yan, Ying Liu
Thus, functional gradient material (FGM) should be a feasible route to introduce Ln2Zr2O7 as oxygen insulation to ZrB2 based materials.
The XRD patterns of the ZrB2/SiC-Sm2Zr2O7 materials were shown in figure 3.
From the results it can be seen that no significant phase transformation was found in the materials.
Minute ZrSiO4 (31.8°) was detected in the materials with high ZrB2/SiC content, which caused by the solid solution of ZrO2 and SiO2 from the row materials.
Oxidation Resistance of Hafnium Diboride-Silicon Carbide from 1400 to 2000°C, Journal of the Material Science, 44 (2009) 5874-5681
The XRD patterns of the ZrB2/SiC-Sm2Zr2O7 materials were shown in figure 3.
From the results it can be seen that no significant phase transformation was found in the materials.
Minute ZrSiO4 (31.8°) was detected in the materials with high ZrB2/SiC content, which caused by the solid solution of ZrO2 and SiO2 from the row materials.
Oxidation Resistance of Hafnium Diboride-Silicon Carbide from 1400 to 2000°C, Journal of the Material Science, 44 (2009) 5874-5681
Online since: October 2010
Authors: Guo Qun Zhao, Cun Sheng Zhang, Hao Chen, Hao Wang
Ruan: Journal of Materials Processing Technology Vol. 190 (2007), p. 382-386
Blokhuis: Journal of Materials Processing Technology Vol. 122 (2002), p. 344-354
Jo et al.: Journal of Materials Processing Technology Vol. 173 (2006), p. 223–231
Wu et al.: Materials Science and Engineering A Vol. 435-436 (2006), p. 266-274
Duszczyk: Journal of Materials Processing Technology Vol. 200 (2008), p. 185-198
Blokhuis: Journal of Materials Processing Technology Vol. 122 (2002), p. 344-354
Jo et al.: Journal of Materials Processing Technology Vol. 173 (2006), p. 223–231
Wu et al.: Materials Science and Engineering A Vol. 435-436 (2006), p. 266-274
Duszczyk: Journal of Materials Processing Technology Vol. 200 (2008), p. 185-198
Online since: November 2014
Authors: R. Rajeswari, R. Jothilakshmi
Curtis, Surface modified superparamagnetic nanoparticles for drug delivery: interaction studies with human fibroblasts in culture, Journal of Materials Science: Materials in Medicine, 15, (2004), 493-496
McClure, Physiological aspects in magnetic drug-targeting, Journal of Magnetism and Magnetic Materials, 194, (1999), 149-155
Felix, Magnetic fluid Hyperthermia (MFH): cancer treatment with AC magnetic field induced excitation of biocompatible superparamagnetic nanoparticles, Journal of Magnetism and Magnetic Materials, 201, (1999), 413-419
Gupta, Magnetically mediated release of ciprofloracin from polyvinyl alcohol based superparamagnetic nanocomposites, Journals of Materials Science: Materials in Medicine, 22, (2011), 357-369
Rifkin, Transformation of toughening in nial observed via monte-carlo simulations, Materials Science and Engineering B: Solid-state Materials for Advanced Technology, 37, (1996), 193-196
McClure, Physiological aspects in magnetic drug-targeting, Journal of Magnetism and Magnetic Materials, 194, (1999), 149-155
Felix, Magnetic fluid Hyperthermia (MFH): cancer treatment with AC magnetic field induced excitation of biocompatible superparamagnetic nanoparticles, Journal of Magnetism and Magnetic Materials, 201, (1999), 413-419
Gupta, Magnetically mediated release of ciprofloracin from polyvinyl alcohol based superparamagnetic nanocomposites, Journals of Materials Science: Materials in Medicine, 22, (2011), 357-369
Rifkin, Transformation of toughening in nial observed via monte-carlo simulations, Materials Science and Engineering B: Solid-state Materials for Advanced Technology, 37, (1996), 193-196
Online since: August 2008
Authors: Katia C.S. Richetto, Cosme Roberto Moreira Silva
Kramer: Materials Science and Technology Vol. 11 (VHC)
(1994), p 121
Thadhani: Journal Materials Science and Engineering Vol. 256 (1-2) (1998), p. 289
Brook: Journal Materials Science and Engineering Vol. 13 (1978), p. 1199
Riley: Journal of the American Ceramic Society Vol. 83 (2) (2000), p. 245
Mc Colm: Ceramic Science for Materials Technologists, New York: Chapman and Hall, (1983)
Thadhani: Journal Materials Science and Engineering Vol. 256 (1-2) (1998), p. 289
Brook: Journal Materials Science and Engineering Vol. 13 (1978), p. 1199
Riley: Journal of the American Ceramic Society Vol. 83 (2) (2000), p. 245
Mc Colm: Ceramic Science for Materials Technologists, New York: Chapman and Hall, (1983)