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Online since: April 2015
Authors: Long Fei Wang, Zhi Jun Han, Xiao Peng Yan, Guo Yun Lu
Introduction
Composite materials are widely used in many fields of aviation, spaceflight, cars, chemical industry and machinery manufacture as a kind of materials with light quality, high hardness and corrosion resistance.
Its material parameters are given in the Table 1[9].
Journal of Shanghai University, 1996,30(8) [2] Zheng Zhang, Farid Taheri.
Chinese Journal of Computational Mechanics,2007, 24(4), P486-P493
European Journal of Mechanics - A/Solids,2011
Its material parameters are given in the Table 1[9].
Journal of Shanghai University, 1996,30(8) [2] Zheng Zhang, Farid Taheri.
Chinese Journal of Computational Mechanics,2007, 24(4), P486-P493
European Journal of Mechanics - A/Solids,2011
Online since: February 2011
Authors: Yan Qun Huang, Ming Liu, Liang Ju Tian
Yao: Journal of Xiamen University (Natural Science), 10 (2002)
Li: Journal of Shanghai University (English Edition), 6, 2 (2002)
Qi: Materials Science Forum, 7, 3 (2009)
Fu: Journal of Zhejiang University SCIENCE A, 9, 11 (2008) (In Chinese)
Zhang: Journal of Shanghai University, 9, 9 (2005) (In Chinese)
Li: Journal of Shanghai University (English Edition), 6, 2 (2002)
Qi: Materials Science Forum, 7, 3 (2009)
Fu: Journal of Zhejiang University SCIENCE A, 9, 11 (2008) (In Chinese)
Zhang: Journal of Shanghai University, 9, 9 (2005) (In Chinese)
Online since: April 2011
Authors: Monica S.A. Oliveira, S. Kanagaraj, R.M. Guedes, A. Fonseca, José A.O. Simões
Materials and Methods
Materials
The medical grade UHMWPE was supplied by M/s Ticona, Inc, Germany.
Jasiuk: Material Science Engineering A Vol. 393 (2005), p. 1 [2] M.
Dubois: Material Science Engineering R Vol. 28 (2000), p. 1 [3] S.
Soergel: Journal of Materials Processing Technology Vol. 139 (2003), p. 140 [6] V.A.
Bonfield: Journal of materials science: materials in medicine Vol. 11 (2000), p. 621 [19] Z.
Jasiuk: Material Science Engineering A Vol. 393 (2005), p. 1 [2] M.
Dubois: Material Science Engineering R Vol. 28 (2000), p. 1 [3] S.
Soergel: Journal of Materials Processing Technology Vol. 139 (2003), p. 140 [6] V.A.
Bonfield: Journal of materials science: materials in medicine Vol. 11 (2000), p. 621 [19] Z.
Online since: November 2025
Authors: Jayson D. Santos, Lexyber Casantosan Manalo, Ismail Mohd Saaid, Manuel Jr. L. Cabiguen
International Journal of Rock Mechanics and Mining Sciences. 135: p. 104486
Journal of Applied Polymer Science, 2016. 133(45)
Journal of Adhesion Science and Technology 32(16): 1795-1808
IOP Conference Series: Materials Science and Engineering, 2018. 374: p. 012071
Journal of Petroleum Science and Engineering, 2016. 137: p. 1-9
Journal of Applied Polymer Science, 2016. 133(45)
Journal of Adhesion Science and Technology 32(16): 1795-1808
IOP Conference Series: Materials Science and Engineering, 2018. 374: p. 012071
Journal of Petroleum Science and Engineering, 2016. 137: p. 1-9
Online since: May 2013
Authors: C.H. Liu, J.Y. Chen, C.J. Li, J.Y. Huang, K.C. Lin, C.H. Chou
The Effect of Ternary Material (Zr, Y, and O) High-k Gate Dielectrics
K.C.
Introduction High-k materials are widely discussed as the new gate insulators that are used to reduce the leakage current in metal-oxide-semiconductor field effect transistors (MOSFETs) for next generation [1].
Summary In this study, the high dielectric material, Y2O3, is used to replace the traditional dielectric material, SiO2, in MOS capacitor and Zr is doped with different stack structure for avoiding the diffusion effect of other materials.
Jeong, “Structural characteristics of Y2O3 films grown on oxidized Si(111) surface”, Journal of Applied Physics 89, pp. 1946-1652, (2001)
Guerin, “Y2O3 thin films: internal stress and microstructure”, Materials Science and Engineering B 109, pp. 34–38, (2004)
Introduction High-k materials are widely discussed as the new gate insulators that are used to reduce the leakage current in metal-oxide-semiconductor field effect transistors (MOSFETs) for next generation [1].
Summary In this study, the high dielectric material, Y2O3, is used to replace the traditional dielectric material, SiO2, in MOS capacitor and Zr is doped with different stack structure for avoiding the diffusion effect of other materials.
Jeong, “Structural characteristics of Y2O3 films grown on oxidized Si(111) surface”, Journal of Applied Physics 89, pp. 1946-1652, (2001)
Guerin, “Y2O3 thin films: internal stress and microstructure”, Materials Science and Engineering B 109, pp. 34–38, (2004)
Online since: November 2011
Authors: Yang Zhang, Qi Yang, Hai Tao Shang
Materials and Methods
A.
Journal of China Sanitary Engineering , vol.8, no.1, pp.38-40, 1999 [14] Vogel T M, Criddle C S, McCarty P L, “Transformation of halogenated aliphatic compounds”, Environmental Science and Technology, vol.21, pp.722–736,1987
[16] Wang Liansheng, Organic pollution Chemistry, 1st ed., Beijing: Science Press, 1990
[18] Dario Frascari, Davide Pinelli, Massimo Nocentini, et al., “Long-term aerobic cometabolism of a chlorinated solvent mixture by vinyl chloride-, methane- and propane-utilizing biomasses”, Journal of Hazardous Materials, vol.B, no.138, pp.29–39, 2006
PB1”, Biochemical Engineering Journal, vol.42, no.2, pp.139-147, 2008
Journal of China Sanitary Engineering , vol.8, no.1, pp.38-40, 1999 [14] Vogel T M, Criddle C S, McCarty P L, “Transformation of halogenated aliphatic compounds”, Environmental Science and Technology, vol.21, pp.722–736,1987
[16] Wang Liansheng, Organic pollution Chemistry, 1st ed., Beijing: Science Press, 1990
[18] Dario Frascari, Davide Pinelli, Massimo Nocentini, et al., “Long-term aerobic cometabolism of a chlorinated solvent mixture by vinyl chloride-, methane- and propane-utilizing biomasses”, Journal of Hazardous Materials, vol.B, no.138, pp.29–39, 2006
PB1”, Biochemical Engineering Journal, vol.42, no.2, pp.139-147, 2008
Online since: September 2013
Authors: Qian Feng, Yue Hao, Yu Kun Li, Kai Du, Peng Shi, Qiang Wang, Qing Feng
Polymer-GaN Bulk Heterojunction Photovoltaic Cells
Qian Feng *1,2,a, Yukun Li 1,2,b, Kai Du 1,2,c , Peng Shi 1,2,d,
Qiang Wang 1,2,e, Qing Feng 1,2,f and Yue Hao 1,2,g
1School of Microelectronics, Xidian University, Xi’an 710071, China
2Key Laboratory of Wide Band-Gap Semiconductor Materials and Devices, Xidian University,Xi’an 710071,China
aqfeng@mail.xidian.edu.cn, bliyukun2007@163.com,c786580295@qq.com, d826585200@qq.com
ewqiang0120@163.com, ffq986@163.com,gyhao@xidian.edu.cn
Keywords: Photovoltaic cell, GaN nanocrystal, P3HT
Abstract.
The hybrid polymer-GaN nanocrystal heterojunction solar cell has been fabricated by blending of GaN and regioregular poly(3-hexylthiophene)(P3HT) through solution process and spin-coating on the glass substrate, in which the Gallium Nitride(GaN) nanocrystal was successfully synthesized by means of sol-gel process The cell shows the Voc and Isc of 0.71V and 3.5mA/cm2 Introduction There has been great interest in hybrid organic–inorganic solar cells due to their low materials cost and solution based processing techniques, creating the potential for large-scale,cost-effective solar cells.
Acknowledgments This work is supported by the Basic Science Research Fund for the Central Universities(Grant No.K50511250009) Corresponding Author Name: Qian Feng, E-mail:qfeng@mail.xidian.edu.cn, Mobil:86-13992845562 References [1] M.C.
Lechmann,D.kessler,D.Gutmann,Langmuir,Vol.25(2009),p.10202 [2] E.S.Kwak,W.Lee,N.G.Park,J.Kim,H.Lee, Advanced Functional Materials,Vol.19 (2009), p.1093, [3] W.J.Sung,S.H.Hyun,D.H.Kim,D.S.Kim,J.Ryu,Science,Vol.44(2009),p.3997 [4] R.Chandrasekar,L.F.Zhang,J.Y.Howe,N.E.Hedin,Y.Zhang,H.Fong,Journal of Materials Science,Vol.44(2009),p.1198 [5] S.K.Hau,H.I.Yip,O.Acton,N.S.Baek,H.Ma,A.Jen,Journal of Materials Chemistry, Vol.18(2008),p.5113 [6] L.Gao,B.Tong,G.J.Yao,Y.P.Dong,M.F.Zhang,J.Lam.
,Acta Polymer Sinica, Vol.3(2005), p.313, [7] S.A.Mcdonald,G.Konstantatos,S.G.Zhang,P.W.Cyr,E.J.Klem,I.Levina,Nature Materials, Vol.4(2005),p.138 [8] K.R.Choudhury,Y.Sahoo,T.Y.Ohulchanskyy,P.N.Prasad,Applied Physics Letter, Vol.87(2005), p.073110 [9] E.Arici,N.S.Sariciftci,D.Meissner, Advanced Functional Materials,Vol.13 (2003),p.165, [10] W.Lee,S.J.Baek,S.K.Min,G.Cai,J.K.Lee,B.W.Cho,Journal of Nanoscience and Nanotechnology, Vol.8(2008),p.4730 [11] D.Verma,A.R.Rao,V.Dutta,Solar Energy Materials and Solar cells,Vol.93(2009),p.1482 [12] D.Wei,H.E.Unalan,D.X.Han,Q.X.Zhang,I.Niu,G.Amaratunga,Vol.19(2008),p.424006 [13] P.C.Krebs,Y.Thomann,R.Thomann,J.W.Andreasen,Vol.19(2008),p.424013 [14] B.R.Saunders,M.I.Turner,Science,Vol.138(2008),p.1 [15] M.Wang,X.Wang, Solar Energy Materials and Solar cells,Vol.92(2008),p.766 [16] W.J.Beek,M.M.Wienk,A.J.Rene Janssen, Advanced Functional Materials,Vol.16(2006),p.1112 [17] En-Ling Li,Deming M,Xuewen Wang,Guican Chen,Surface Review and Letters
The hybrid polymer-GaN nanocrystal heterojunction solar cell has been fabricated by blending of GaN and regioregular poly(3-hexylthiophene)(P3HT) through solution process and spin-coating on the glass substrate, in which the Gallium Nitride(GaN) nanocrystal was successfully synthesized by means of sol-gel process The cell shows the Voc and Isc of 0.71V and 3.5mA/cm2 Introduction There has been great interest in hybrid organic–inorganic solar cells due to their low materials cost and solution based processing techniques, creating the potential for large-scale,cost-effective solar cells.
Acknowledgments This work is supported by the Basic Science Research Fund for the Central Universities(Grant No.K50511250009) Corresponding Author Name: Qian Feng, E-mail:qfeng@mail.xidian.edu.cn, Mobil:86-13992845562 References [1] M.C.
Lechmann,D.kessler,D.Gutmann,Langmuir,Vol.25(2009),p.10202 [2] E.S.Kwak,W.Lee,N.G.Park,J.Kim,H.Lee, Advanced Functional Materials,Vol.19 (2009), p.1093, [3] W.J.Sung,S.H.Hyun,D.H.Kim,D.S.Kim,J.Ryu,Science,Vol.44(2009),p.3997 [4] R.Chandrasekar,L.F.Zhang,J.Y.Howe,N.E.Hedin,Y.Zhang,H.Fong,Journal of Materials Science,Vol.44(2009),p.1198 [5] S.K.Hau,H.I.Yip,O.Acton,N.S.Baek,H.Ma,A.Jen,Journal of Materials Chemistry, Vol.18(2008),p.5113 [6] L.Gao,B.Tong,G.J.Yao,Y.P.Dong,M.F.Zhang,J.Lam.
,Acta Polymer Sinica, Vol.3(2005), p.313, [7] S.A.Mcdonald,G.Konstantatos,S.G.Zhang,P.W.Cyr,E.J.Klem,I.Levina,Nature Materials, Vol.4(2005),p.138 [8] K.R.Choudhury,Y.Sahoo,T.Y.Ohulchanskyy,P.N.Prasad,Applied Physics Letter, Vol.87(2005), p.073110 [9] E.Arici,N.S.Sariciftci,D.Meissner, Advanced Functional Materials,Vol.13 (2003),p.165, [10] W.Lee,S.J.Baek,S.K.Min,G.Cai,J.K.Lee,B.W.Cho,Journal of Nanoscience and Nanotechnology, Vol.8(2008),p.4730 [11] D.Verma,A.R.Rao,V.Dutta,Solar Energy Materials and Solar cells,Vol.93(2009),p.1482 [12] D.Wei,H.E.Unalan,D.X.Han,Q.X.Zhang,I.Niu,G.Amaratunga,Vol.19(2008),p.424006 [13] P.C.Krebs,Y.Thomann,R.Thomann,J.W.Andreasen,Vol.19(2008),p.424013 [14] B.R.Saunders,M.I.Turner,Science,Vol.138(2008),p.1 [15] M.Wang,X.Wang, Solar Energy Materials and Solar cells,Vol.92(2008),p.766 [16] W.J.Beek,M.M.Wienk,A.J.Rene Janssen, Advanced Functional Materials,Vol.16(2006),p.1112 [17] En-Ling Li,Deming M,Xuewen Wang,Guican Chen,Surface Review and Letters
Online since: June 2015
Authors: Nafisah Osman, Najwa Adni Ibarahim, Mohd Azlan Mohd Ishak
The raw materials were loaded inside a 350-mL vessel and were synthesized by a High Pressure-High Temperature (HP-HT) batch wise reactor system.
Kim, Metal nanoparticle synthesis using supercritical alcohol, Materials Letters 63 (2009) 1880–1882
Cansell, Review of supercritical fluids in organic material science, Journal of Supercritical Fluids 38 (2006) 242-251
Ishak, A Study On Liquefaction of Pretreted Mukah Balingan Low Rank Malaysia Coal, Chapter 3 : Materials and Methods (2007) 25
Zhu, Advanced synthesis of materials for intermediate-temperature solid oxide fuel cells, Progress in Materials Science 57 (2012) 804-874
Kim, Metal nanoparticle synthesis using supercritical alcohol, Materials Letters 63 (2009) 1880–1882
Cansell, Review of supercritical fluids in organic material science, Journal of Supercritical Fluids 38 (2006) 242-251
Ishak, A Study On Liquefaction of Pretreted Mukah Balingan Low Rank Malaysia Coal, Chapter 3 : Materials and Methods (2007) 25
Zhu, Advanced synthesis of materials for intermediate-temperature solid oxide fuel cells, Progress in Materials Science 57 (2012) 804-874
Online since: March 2011
Authors: Bo Liu, Ye Ning
Beijing: China Science and Technology Press (1996)
Chinese Journal of Rock Mechanics and Engineering (1999)
Journal of Coal Science and Engineering (1998)
Chinese Journal of Geotechnical Engineering (1995)
Chinese Journal of Geotechnical Engineering (1996).
Chinese Journal of Rock Mechanics and Engineering (1999)
Journal of Coal Science and Engineering (1998)
Chinese Journal of Geotechnical Engineering (1995)
Chinese Journal of Geotechnical Engineering (1996).
Online since: September 2013
Authors: Yan Feng Chen, Yue Feng Tang, Yan Wen Lu, Fei Shen, Xing Yun Wu, Kun Tang, Hua Zhen Yang, Xue Wen Liu, Bao Hua Rong, Qing Lin Chen
Multi-components lithium ion secondary battery materials of Li(NixCoyMn1−x−y)O2 are developed to replace LiCoO2 as cathode materials due to their potentially high discharge capacity, excellent cycling stability, safe and low cost[2].
The spray pyrolysis processing is a novel route for the synthesis of many inorganic materials and the sintering of advanced materials[4,5,6,7].
Wan, Journal of Power Sources, 129 (2004) 264-269
Jiang, Journal of Power Sources, 102 (2001) 162-166
Lee, Journal of Power Sources, 196 (2011) 6682-6687
The spray pyrolysis processing is a novel route for the synthesis of many inorganic materials and the sintering of advanced materials[4,5,6,7].
Wan, Journal of Power Sources, 129 (2004) 264-269
Jiang, Journal of Power Sources, 102 (2001) 162-166
Lee, Journal of Power Sources, 196 (2011) 6682-6687