Electrospinning a Thermoelectric Polymer - Materials Science and ...
Electrospinning a Thermoelectric Polymer - Materials Science and ...
Electrospinning a Thermoelectric Polymer - Materials Science and ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
References<br />
[1] Nidhi Dubey <strong>and</strong> Mario Leclerc. (2011). Conducting <strong>Polymer</strong>s: Efficient <strong>Thermoelectric</strong> <strong>Materials</strong>. Journal of <strong>Polymer</strong><br />
<strong>Science</strong> Part B: <strong>Polymer</strong> Physics, 49 (7). http://onlinelibrary.wiley.com/doi/10.1002/polb.22206/pdf<br />
[2] Kaiser, A. B. "<strong>Thermoelectric</strong> Power <strong>and</strong> Conductivity of Heterogeneous Conducting <strong>Polymer</strong>s." Physical Review B 40.5<br />
(1989): 2806-813.<br />
[3] David K. Taggart, et al. Enhanced <strong>Thermoelectric</strong> Metrics in Ultra-long Electrodeposited PEDOT Nanowires. Nanoletters,<br />
2010.<br />
[4] Farshad Faghani. Thermal Conductivity Measurement of PEDOT:PSS by 3-Omega Technique. Thesis, Linkoping University,<br />
2010.<br />
[5] Afaf Khamis El-Aufy. (2004). Nanofibers <strong>and</strong> Nanocomposites Poly(3,4-ethylene dioxythiophene)/Poly(styrenesulfonate)<br />
by <strong>Electrospinning</strong>. (Doctoral dissertation).<br />
[6] Dale S. Pearson et al. Effect of molecular Weight <strong>and</strong> Orientation on the Conductivity of Conjugated <strong>Polymer</strong>s.<br />
Macromolecules Vol. 26, 2003.<br />
[7] Environmental Fate <strong>and</strong> Effects of Ethylene Glycol used at Airports. American Chemistry Council. February 2000.<br />
http://www.huntsman.com/performance_products/media/fate_<strong>and</strong>_effects.pdf<br />
[8] G. Long, M. E. Meek, <strong>and</strong> M. Lewis. N,N-dimethylformamide. World Health Organization, United Nations Environment<br />
Programme, <strong>and</strong> the International Labor Organization. 2001. http://www.who.int/ipcs/publications/cicad/en/cicad31.pdf<br />
[9] Environmental Profile N-Methylpyrrolidone. EPA, 1998. http://nepis.epa.gov<br />
[10] D. A. Saville. ELECTROHYDRODYNAMICS: The Taylor-Melcher Leaky Dielectric Model. Annu. Rev. Fluid Mech. 1997. 29:27–<br />
64.<br />
[11] Moses M. Hohman, Michael Shin, Gregory Rutledge, <strong>and</strong> Michael P. Brenner. <strong>Electrospinning</strong> <strong>and</strong> electrically forced jets.<br />
II. Applications. Phys. Fluids, Vol. 13, No. 8, August 2001.<br />
[12] Sergey V. Fridrikh, Jian H. Yu, Michael P. Brenner, <strong>and</strong> Gregory C. Rutledge. Controlling the Fiber Diameter during<br />
<strong>Electrospinning</strong>. Phys. Rev. Lett., 2003, 90, 14, 144502-1-144502-4.<br />
[13] Matthew E. Helgeson & Norman J. Wagner. (2007). A Correlation for the Diameter of Electrospun <strong>Polymer</strong><br />
Nanofibers. AIChE Journal, 53(1), 51-55. DOI 10.1002/aic.<br />
[14] Matthew E. Helgeson, Kristie N. Grammatikos, Joseph M. Deitzel, Norman J. Wagner. (2008). Theory <strong>and</strong> kinematic<br />
measurements of the mechanics of stable electrospun polymer jets. <strong>Polymer</strong>, 49, 2924–2936.<br />
[15] Weiwei Zuo, Meifang Zhu, Wen Yang, Hao Yu, Yanmo Chen, Yu Zhang. Experimental Study on Relationship Between Jet<br />
Instability <strong>and</strong> Formation of Beaded Fibers During <strong>Electrospinning</strong>. POLYMER ENGINEERING AND SCIENCE, 2005, 704-709.<br />
[16] Nishuang Liu, Guojia Fang, Jiawei Wan, Hai Zhou, Hao Long <strong>and</strong> Xingzhong Zhao. (2011). Electrospun PEDOT:PSS–PVA<br />
nanofiber based ultrahigh-strain sensors with controllable electrical conductivity. J. Mater. Chem., 21, 18962.<br />
[17] Jaewon Choi, Jeongwoo Lee, Jinsub Choi, Dongsoo Jung, Sang Eun Shim. (2010). Electrospun PEDOT:PSS/PVP nanofibers<br />
as the chemiresistor in chemical vapour sensing. Synthetic Metals, 160, 1415–1421.<br />
[18] Ali Shakouri <strong>and</strong> Suquan Li. (1999). <strong>Thermoelectric</strong> Power Factor for Electrically Conducive <strong>Polymer</strong>s. Proceeding of<br />
International Conference on <strong>Thermoelectric</strong>s. http://www.dtic.mil/cgi-bin/GetTRDocAD=ADA459010<br />
36