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Nanocomposites polyaniline/graphene

Du, Y., Shen, S.Z., Yang, W, Donekon, R., Cai, K., Casey, P.S., 2012. Simultaneous increase in conductivity and Seebeck coefficient in a polyaniline/graphene nanosheets thermoelectric nanocomposite. Synth. Met. 161,2688-2692. [Pg.190]

Besides graphene sheets tested as CO2 capture materials, the introduction of other active sites onto graphene sheets for high-performance CO2 sorbents was also extensively investigated recently [140-142]. For example, PPy functionalized graphene sheets are employed to fabricate N-doped porous carbons via chemical activation [143]. This type of material shows selective adsorption of CO2 (4.3 mmol g ) over N2 (0.27 mmol g ) at 25 °C. Similarly, the highest CO2 uptake (75 mmol g ) at 11 bar and 25 °C over polyaniline-graphene nanocomposites were reported by Mishra and Ramaprabhu [144]. [Pg.50]

Graphene/polyanihne paper electrodes are in high demand due to their superior electrochemical performances and low cost [62]. Graphene oxide can be the precursor for preparing polyaniline/graphene nanocomposites... [Pg.246]

Supercapacitors require electrode materials that have good electrical conductivity, good electrochemical properties, high chemical and environmental stabilities, etc. Various ECP/CNM nanocomposites such as polyaniline/carbon nanofiber [31,32,34], polyaniline/graphene [62,67-69], and polypyrrole/graphene [73,75] are widely used as electrode materials in supercapacitors. [Pg.251]

The first aim of the present study is to synthesize polyaniline/graphene nanocomposites with appropriate morphology and electrical properties... [Pg.9]

Y. F. Huang, C. W. Lin, Facile synthesis and morphology control of graphene oxide/polyaniline nanocomposites via in-situ polymerization process, Polymer, vol. 53, pp. 2574-2582, 2012. [Pg.115]

Xu, J., Wang, K., Zu, S.-Z., Han, B.-H., Wei, Z., 2010. Hierarchical nanocomposites of polyaniline nanowire arrays on graphene oxide sheets with synergistic effect for energy storage. ACS Nano 4, 5019-5026. [Pg.240]

Zhou, S., H. Zhang, X. Wang, J. Li, and R Wang. 2013. Sandwich nanocomposites of polyaniline embedded between graphene layers and multi-walled carbon nanotubes for cycle-stable electrode materials of organic supercapacitors. RSC Advances 3 1797-1807. [Pg.221]

Liang, R., Cao, H., Qian, D., Zhang, ]., and Qu, M. [2011]. Designed synthesis of SnOj-polyaniline-reduced graphene oxide nanocomposites as an andoe material for lithium-ion batteries, J. Mater. Chem., 21, pp. 17654-17657. [Pg.361]

Radhapyari, K., Kotoky, R, Das, M. R, and Khan, R (2013). Graphene-polyaniline nanocomposite based biosensor for detection of... [Pg.467]

Keywords Thermoelectric power, Seebeck coefficient, thermal conductivity electrical conductivity power factor, figure of merit, intrinsically conducting polymers, polyaniline, polypyrrole, polythiophene, nanoparticles, graphene, carbon nanotubes (CNTs), hybrids, nanocomposites... [Pg.339]

Keywords Electromagnetic interference (EMI) shielding, microwave absorption, electrical conductivity, nanocomposites, intrinsically conducting polymers (ICPs), polyaniline, carbon nanotubes, graphene, shielding effectiveness, reflection loss, absorption loss, complex permittivity and permeabdity... [Pg.451]

T. K. Gupta, B. P. Singh, R. B. Mathur, S. R. Dhakate, Multi-walled Carbon Nanotube-Graphene-Polyaniline Multiphase Nanocomposite with Superior Electromagnetic Shielding Effectiveness. Nanoscale 2014,6,842. [Pg.510]

C. Basavaraja, W. J. Kim, D. G. Kim, D. S. Huh, Microwave Absorption Studies of Polyaniline Nanocomposites Encapsulating Gold Nanoparticles on the Surface of Reduced Graphene Oxide in the Presence of 2-Naphthalene Sulfonic Acid. Colloid Polym Sci 2012,290, 829-838. [Pg.511]

Keywords Carbon nanotubes, carbon nanofibers, fullerene, graphene, nanocomposites, polyacetylene, polyaniline, polymerization, polypyrrole... [Pg.229]

Al-Mashat L, Shin K, Kalantar-zadeh K, Plessis JD, Han SH, Kojima RW, Kaner RB, Li D, Gou X, IppoUto SJ, Wlodarski W (2010) Graphene/polyaniline nanocomposite for hydrogen sensing. J Phys Chem C 114 16168-16173... [Pg.193]

Jain R., D. C. Tiwari, and P. Karolia. Electrocatalytic detection and quantification of nitazoxanide based on graphene- polyaniline (Grp-PANI) nanocomposite sensor. J. Electrochem. Soc. 161, 2014 H839-H844. [Pg.217]

Pakapongpan S, Mensing JP, Phokharatkul D et al (2014) Highly selective electrochemical sensor for ascorbic acid based on a novel hybrid graphene-copper phthalocyanine-polyaniline nanocomposites. Electrochim Acta 133 294-301... [Pg.132]

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