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Online since: February 2014
Authors: Xian Li, Wen Chao Dan, Guang Zhong Xie, Hui Ling Tai, Ya Dong Jiang
Formaldehyde Detection Based on P3HT/Insno Composite Thin Film Transistor
Xian Lia, Yadong Jiangb, Huiling Taic, Guangzhong Xied and Wenchao Dane
State Key Laboratory of Electronic Thin Films and Integrated Devices, School of Optoelectronic Information, University of Electronic Science and Technology of China, Chengdu 61005, China
alixian0317@163.com, bjiangyd@uestc.edu.cn, ctaitai1980@uestc.edu.cn, dgzxie@uestc.edu.cn, egjd_love@126.com
Keywords: Gas sensor, Formaldehyde, P3HT, Nano-InSnO, Composite material, Organic thin-film transistor (OTFT).
Poly (3-hexythiophene) (P3HT) is one of the widely used materials in OTFT.
This illustrated that the adding of nano-material in P3HT had effects on the morphology of the films.
Sensors Journal.
Chinese Journal of Liquid Crystals and Displays.
Poly (3-hexythiophene) (P3HT) is one of the widely used materials in OTFT.
This illustrated that the adding of nano-material in P3HT had effects on the morphology of the films.
Sensors Journal.
Chinese Journal of Liquid Crystals and Displays.
Online since: December 2012
Authors: Xue Yi Shi, Yun Ping Wang, Xiao Dan Sun
Materials and methods
The general situation of research area.
Wang: Journal of Shanxi Agricultural Sciences, Vol.37(12)(2009), p.28.
Ma: Journal of Huaibei Industry Teachers College (Natural Sciences Edition), Vol. 26(1) (2005), p.49.
Shi: Journal of Shanxi Agricultural Sciences, Vol. 27(2) (1999), p.64.
Hong: Journal of Soil Water Conservation, Vol. 15(4) (2001), p.126.
Wang: Journal of Shanxi Agricultural Sciences, Vol.37(12)(2009), p.28.
Ma: Journal of Huaibei Industry Teachers College (Natural Sciences Edition), Vol. 26(1) (2005), p.49.
Shi: Journal of Shanxi Agricultural Sciences, Vol. 27(2) (1999), p.64.
Hong: Journal of Soil Water Conservation, Vol. 15(4) (2001), p.126.
Online since: May 2011
Authors: Yuan Li, Lei Jia, Song Hong Yan
The result reveals that improvement scheme II-3 can effectively decrease anion content in saline soil, and mixed with cement and active material fly ash, can significantly increase the strength of the soil mass, and decrease water involved in expansion and frost heave.
So cement and the active material fly ash are main factors of the intensified strength of saline soil.
The former has a better effect in reducing anion, and mixed with cement and active material fly ash, the strength of saline soil can be increased significantly; Water involved in salt expansion and frost heave decreases further.
References [1] Zunqin Wang: Saline Soil in China(Beijing Science Press, 1993) [2]Zhou Qi and Weifeng Han:Chinese Journal of Geotechnical Engineering.Vol. 9(2006), P1177 [3] Xinshuo Sun,Lan Qiao: Rock and Soil Mechanics.
Vol. 28(2007),P.1974,in Chinese [4] Zhao Yang and Fulai Xi:Rock Mechanics.Vol.24(2003)(supplementary issue),P.35 [5] Zuoheng Li: Journal of Shijiazhuang Railway Institute.Vol.6(2007),P.45,in Chinese [6] Jianmin Liu:Highway Transportation Digest.Vol.12(2004),P. 49,in Chinese
So cement and the active material fly ash are main factors of the intensified strength of saline soil.
The former has a better effect in reducing anion, and mixed with cement and active material fly ash, the strength of saline soil can be increased significantly; Water involved in salt expansion and frost heave decreases further.
References [1] Zunqin Wang: Saline Soil in China(Beijing Science Press, 1993) [2]Zhou Qi and Weifeng Han:Chinese Journal of Geotechnical Engineering.Vol. 9(2006), P1177 [3] Xinshuo Sun,Lan Qiao: Rock and Soil Mechanics.
Vol. 28(2007),P.1974,in Chinese [4] Zhao Yang and Fulai Xi:Rock Mechanics.Vol.24(2003)(supplementary issue),P.35 [5] Zuoheng Li: Journal of Shijiazhuang Railway Institute.Vol.6(2007),P.45,in Chinese [6] Jianmin Liu:Highway Transportation Digest.Vol.12(2004),P. 49,in Chinese
Online since: September 2013
Authors: Yuan Li, Song Chao Tang, Zheng Fang Cao, Li Liang Meng, Bing Wang
:Fire and Materials, Vol.1 (1976) , p. 154-159
Nolan: Fire and Materials, Vol. 7(2) (1983) , p. 89-95
Fire and Materials, Vol. (1987) , p. 2:37–39
Journal of Materials Science, Vol. 21 (2011) , p. 7046-7055
Materials Science and Engineering B, Vol. 77(2) (2000) , p. 185-192
Nolan: Fire and Materials, Vol. 7(2) (1983) , p. 89-95
Fire and Materials, Vol. (1987) , p. 2:37–39
Journal of Materials Science, Vol. 21 (2011) , p. 7046-7055
Materials Science and Engineering B, Vol. 77(2) (2000) , p. 185-192
Online since: August 2013
Authors: Wei Dong Kong, Jian Zeng, Jing Zhong
Sofa, carpet and beddings are combustible materials.
Choose incombustible or difficult-inflammable materials.
It is the external-wall insulation materials and the decorating materials that are subject to most serious damage.
References [1] Ling Huang: Journal of North China Institute of Science and Technology.
In Chinese [2] Xiaohong Chen: Housing Science.
Choose incombustible or difficult-inflammable materials.
It is the external-wall insulation materials and the decorating materials that are subject to most serious damage.
References [1] Ling Huang: Journal of North China Institute of Science and Technology.
In Chinese [2] Xiaohong Chen: Housing Science.
Online since: December 2011
Authors: Mohamed Nor Sabirin, Ri Hanum Yahaya Subban, Hafizul Mat
This means there is not enough host materials to surround the dispersoid particles leading to fall of total effective surface area of contact.
Gupta: Journal of Materials Science Vol. 34 (1999), p. 1131 [9] P.
Palkar: Materials Research Bulletin Vol. 37 (2002), p. 2043 [10] J.
Anjan: Material Research Bulletin Vol. 40 (2005), p. 67 [13] G.P.
Mohamed: Key Engineering Material Vol. 471-472 (2011), p. 274 [17] M.V.
Gupta: Journal of Materials Science Vol. 34 (1999), p. 1131 [9] P.
Palkar: Materials Research Bulletin Vol. 37 (2002), p. 2043 [10] J.
Anjan: Material Research Bulletin Vol. 40 (2005), p. 67 [13] G.P.
Mohamed: Key Engineering Material Vol. 471-472 (2011), p. 274 [17] M.V.
Online since: October 2015
Authors: Nataliia V. Sevodina, Nataliia A. Yurlova, Dmitriy A. Oshmarin
Oshmarin1,c
1Institue of Continuous Media Mechanics of the Ural Branch of the Russian Academy of Sciences, acad.
[5] Hagood N.W., von Flotow A., Damping of structural vibrations with piezoelectric materials and passive electrical networks, Journal of Sound and Vibration. 146(2) (1991) 243–268
[8] Gupta V., Sharma M., Thakur N., Optimization Criteria for Optimal Placement of Piezoelectric Sensors and Actuators on a Smart Structure: A Technical Review, Journal of Intelligent Material Systems and Structures. 21(8) (2010) 1227-1243
[9] Han J.Y., Lee I., Optimal placement of piezoelectric Sensors and actuators for vibration control of a composite plate using genetic algorithms, Smart Materials and Structures. 8(2) (1999) 257-267
(Eds.), Mechanics of Advanced Materials, Springer-Verlag, Wien, 2015, pp. 79-100.
[5] Hagood N.W., von Flotow A., Damping of structural vibrations with piezoelectric materials and passive electrical networks, Journal of Sound and Vibration. 146(2) (1991) 243–268
[8] Gupta V., Sharma M., Thakur N., Optimization Criteria for Optimal Placement of Piezoelectric Sensors and Actuators on a Smart Structure: A Technical Review, Journal of Intelligent Material Systems and Structures. 21(8) (2010) 1227-1243
[9] Han J.Y., Lee I., Optimal placement of piezoelectric Sensors and actuators for vibration control of a composite plate using genetic algorithms, Smart Materials and Structures. 8(2) (1999) 257-267
(Eds.), Mechanics of Advanced Materials, Springer-Verlag, Wien, 2015, pp. 79-100.
Online since: September 2017
Authors: Bogdan Istrate, Marcelin Benchea, Daniela Lucia Chicet, Corneliu Munteanu, Ovidiu Mocănița
Mangeron Blvd, Iasi, Romania
2Technical University of Iasi, Materials Science and Engineering Department,
41 D.
The applications of this material (aeronautics, automotive, construction, consumer goods etc.) are limited by two major drawbacks: higher weight compared to ordinary plastic materials and low melting point (≈ 175° C).
The apparent answer would be simple: the development of new composite materials that contain natural or synthetic fibers that do not adversely affect the environment and which can "keep up" with the characteristics of classical materials [2].
One of these materials is ”liquid wood”, a biodegradable and recyclable thermoplastic material invented by a team of researchers at the Fraunhofer Institute for Chemical Technology (ICT) in Pfinztal, Germany.
Drzal, Sustainable Bio-Composites from Renewable Resources: Opportunities and Challenges in the Green Materials World, Journal of Polymers and the Environment, Vol. 10, Nr. 1/2, (2002)
The applications of this material (aeronautics, automotive, construction, consumer goods etc.) are limited by two major drawbacks: higher weight compared to ordinary plastic materials and low melting point (≈ 175° C).
The apparent answer would be simple: the development of new composite materials that contain natural or synthetic fibers that do not adversely affect the environment and which can "keep up" with the characteristics of classical materials [2].
One of these materials is ”liquid wood”, a biodegradable and recyclable thermoplastic material invented by a team of researchers at the Fraunhofer Institute for Chemical Technology (ICT) in Pfinztal, Germany.
Drzal, Sustainable Bio-Composites from Renewable Resources: Opportunities and Challenges in the Green Materials World, Journal of Polymers and the Environment, Vol. 10, Nr. 1/2, (2002)