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Online since: June 2015
Authors: M.K. Nahar, Zarina Zakaria, U. Hashim, Md Fazlul Bari
This developing area of research inter-laces various disciplines of science such as biology, chemistry,physics and material science.
Silver nanoparticles can be also prepared by use of various biological materials such as plant extracts [23].
Nanosilver prepared by using biological materials have the properties of a high surface area, smaller in size and high dispersion.
Ren, "Synthesis of nanosized silver particles by chemical reduction method," Materials chemistry and physics, 64(2000) 241-246
Sakthivel, "Coriander leaf mediated biosynthesis of gold nanoparticles," Materials Letters, 62(2008) 4588-4590
Silver nanoparticles can be also prepared by use of various biological materials such as plant extracts [23].
Nanosilver prepared by using biological materials have the properties of a high surface area, smaller in size and high dispersion.
Ren, "Synthesis of nanosized silver particles by chemical reduction method," Materials chemistry and physics, 64(2000) 241-246
Sakthivel, "Coriander leaf mediated biosynthesis of gold nanoparticles," Materials Letters, 62(2008) 4588-4590
Online since: November 2013
Authors: Marioara Moldovan, Laura Silaghi-Dumitrescu, Vasile Prejmerean, Cristina Prejmerean, Doina Prodan
Materials and methods
Obtaining of the experimental dental composites and giomers.
The corresponding values of the studied areas of the materials were obtained by interpolation.
Tam, D.McComb, Comparative Translucency of Esthetic Composite Resin Restorative Materials, J Can Dent Assoc 76 (2010) 84
Dadic, Radiopacity of composite dental materials using a digital X-ray system, Dent Mater J 31(1) (2012) 47–53
Review of clinical and research aspects, Journal of Dentistry 38 (2010) 2–6
The corresponding values of the studied areas of the materials were obtained by interpolation.
Tam, D.McComb, Comparative Translucency of Esthetic Composite Resin Restorative Materials, J Can Dent Assoc 76 (2010) 84
Dadic, Radiopacity of composite dental materials using a digital X-ray system, Dent Mater J 31(1) (2012) 47–53
Review of clinical and research aspects, Journal of Dentistry 38 (2010) 2–6
Online since: July 2014
Authors: Fang Shao, Yu Ting Wang, Li Jing Zou, Xian Ming Zhang, Bin Ji
Journal of Materials Processing Technology.185 (2007):60-71
Materials Science and Engineering: A.425(2006): 47-54
Materials Science and Engineering: A.510-511(2009): 295-300
Journal of Materials Processing Technology.68(1997):262-274
Journal of materials processing technology. 196(2008):79–87
Materials Science and Engineering: A.425(2006): 47-54
Materials Science and Engineering: A.510-511(2009): 295-300
Journal of Materials Processing Technology.68(1997):262-274
Journal of materials processing technology. 196(2008):79–87
Online since: January 2005
Authors: Teresa Oh, Kwang Man Lee, Kyung Sik Kim, Sung Bo Oh, Won Hyung Kim, Chi Kyu Choi
Recently, organic-inorganic
hybrid silica materials are being proposed as promising candidates for low-k materials [6-9].
Organic-inorganic hybrid silica materials are known as low-k materials with pores through steric hindrance due to rich alkyl groups, and the dielectric constant of the films also increases through low ionic polarization.
Results and discussion Figure 1 shows the FTIR spectra of as-deposited organic-inorganic hybrid silica materials.
The FTIR spectra of as-deposited organic-inorganic hybrid silica materials Fig. 2.
R01-1999-000-00092-0 from the Korea Science and Engineering Foundation.
Organic-inorganic hybrid silica materials are known as low-k materials with pores through steric hindrance due to rich alkyl groups, and the dielectric constant of the films also increases through low ionic polarization.
Results and discussion Figure 1 shows the FTIR spectra of as-deposited organic-inorganic hybrid silica materials.
The FTIR spectra of as-deposited organic-inorganic hybrid silica materials Fig. 2.
R01-1999-000-00092-0 from the Korea Science and Engineering Foundation.
Online since: June 2010
Authors: Leszek Adam Dobrzański, Mirosław Bonek
Ford: Functionally Graded
Materials, (Kluwer Academic Publishers, Boston 1999)
Velasco: Development and characterisation of high-speed steel matrix composites gradient materials, Journal of Materials Processing Technology 143-144, , p. 769, (2003) [3] Z.
Ocelik: Materials Science Forum, (2003)
Dobrzański: Journal of Achievements in Materials and Manufacturing Engineering 28(1) pp. 75 (2008)
Dobrzański: Materials Science Forum Vols. 638-642, p. 1830 (2010).
Velasco: Development and characterisation of high-speed steel matrix composites gradient materials, Journal of Materials Processing Technology 143-144, , p. 769, (2003) [3] Z.
Ocelik: Materials Science Forum, (2003)
Dobrzański: Journal of Achievements in Materials and Manufacturing Engineering 28(1) pp. 75 (2008)
Dobrzański: Materials Science Forum Vols. 638-642, p. 1830 (2010).
Online since: December 2025
Authors: Amol Sahebrao Patil, Vikas Vasant Deshmane, Umesh Jagannath Tupe, Chandrakant Govindrao Dighavkar, Arun Vitthal Patil
Journal of Materials Science: Materials in Electronics, 34(18), 1446
Bulletin of Materials Science, 34, 429-434
Bulletin of Materials Science, 43(1), 146
Journal of Materials Science: Materials in Electronics, 31(5), 3729-3749
Journal of Materials Science: Materials in Electronics, 33(23), 18167-18179
Bulletin of Materials Science, 34, 429-434
Bulletin of Materials Science, 43(1), 146
Journal of Materials Science: Materials in Electronics, 31(5), 3729-3749
Journal of Materials Science: Materials in Electronics, 33(23), 18167-18179
Online since: July 2015
Authors: Irum Tariq, Muhammad H Hasan, Sazib Mollik
There has been an emergence of interest in new types of composites, moving away from conventional non-renewable and difficult to degrade or non-degradable materials, to renewable and easily degradable materials.
Composite materials Composite materials are prepared using natural or synthetic reinforcements and a variety of matrix materials.
Acknowledgments The authors wish to thank all researchers and scientists in the field of nano- and bio-composites for their contribution to increasing knowledge in this important area of materials science.
[9] Gon, D.D., Kousik Paul, Palash Maity, Subhankar: International Journal of Textile Science Vol 1 (2012), p. 84-93 [10] Bodros, E.P., Isabelle Montrelay, Nicolas Baley, Christophe: Composites Science and Technology Vol 67 (2007), p. 462-470
[11] Mohanty, A.M., M Drzal, LT: Journal of Polymers and the Environment Vol 10 (2002), p. 19-26
Composite materials Composite materials are prepared using natural or synthetic reinforcements and a variety of matrix materials.
Acknowledgments The authors wish to thank all researchers and scientists in the field of nano- and bio-composites for their contribution to increasing knowledge in this important area of materials science.
[9] Gon, D.D., Kousik Paul, Palash Maity, Subhankar: International Journal of Textile Science Vol 1 (2012), p. 84-93 [10] Bodros, E.P., Isabelle Montrelay, Nicolas Baley, Christophe: Composites Science and Technology Vol 67 (2007), p. 462-470
[11] Mohanty, A.M., M Drzal, LT: Journal of Polymers and the Environment Vol 10 (2002), p. 19-26
Online since: February 2012
Authors: Andrew Hsu, Hui He, Li Hong Huang
Non-precious metal catalytic materials for auto-thermal reforming
Andrew Hsu 1a, Hui He1b, and Lihong Huang2c
1 Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435, United States
2 Department of Chemical Engineering, Chengdu University of Technology, Chengdu 610059, China
aandrew.hsu@wright.edu, bhui.he@wright.edu, chuanglihong06@cdut.cn;
Keywords: Catalytic materials; Auto-thermal reforming of ethanol; Hydrogen production; Non-precious metal catalyst
Abstract.
The materials studied include Ni and Co based compounds.
Mirodatos, Journal of Power Sources 145 (2005) (2), p. 659
Hsu, Materials Research Bulletin 45 (2010) (1), p. 92
Portugal, Materials Science and Engineering: A 465 (2007) (1-2), p. 199
The materials studied include Ni and Co based compounds.
Mirodatos, Journal of Power Sources 145 (2005) (2), p. 659
Hsu, Materials Research Bulletin 45 (2010) (1), p. 92
Portugal, Materials Science and Engineering: A 465 (2007) (1-2), p. 199
Online since: January 2015
Authors: Fu Guo Tong, Gang Liu, Shao Jun Huo
The concrete in annular region was divided into several kinds of materials along the radius when computing thermal conductivity.
References [1] Jong-Han Lee, Jong-Jae Lee and Baik-Soon Cho: International Journal of Concrete Structures and Materials Vol. 6(2012), p.177-186
Antczak: Construction and Building Materials Vol. 63(2014), p.197-205
[3] Jianzhuang Xiao, Zhiwen Song and Feng Zhang: Journal of Building Materials Vol. 13(2010), p.17-21.In Chinese
[9] Mo Xu, Di Wang: Journal of Earth Sciences and Environment Vol. 33(2011), p.421-428.In Chinese
References [1] Jong-Han Lee, Jong-Jae Lee and Baik-Soon Cho: International Journal of Concrete Structures and Materials Vol. 6(2012), p.177-186
Antczak: Construction and Building Materials Vol. 63(2014), p.197-205
[3] Jianzhuang Xiao, Zhiwen Song and Feng Zhang: Journal of Building Materials Vol. 13(2010), p.17-21.In Chinese
[9] Mo Xu, Di Wang: Journal of Earth Sciences and Environment Vol. 33(2011), p.421-428.In Chinese
Online since: January 2011
Authors: Jun Feng Su, Jian Jun Cheng
Journal of Applied Polymer Science, 63, 1047–1053
Journal of Food Science, 65(6), 114–121
Journal of Applied Science, 58, 1647–1652
Polymer materials science and engineering, 22(4), 223–226 [44] Gao Jianping, Yu Jiugao (1999).
Polymer materials science and engineering, 15(3), 93–97 [45] R.
Journal of Food Science, 65(6), 114–121
Journal of Applied Science, 58, 1647–1652
Polymer materials science and engineering, 22(4), 223–226 [44] Gao Jianping, Yu Jiugao (1999).
Polymer materials science and engineering, 15(3), 93–97 [45] R.