References
- Abdelwahab, A.A., D.-M. Kim, N.M. Halappa, and Y.B. Shim. 2013. A selective catalytic oxidation of ascorbic acid at the aminopyrimidyl functionalized-conductive polymer electrode. Electroanalysis 25:1178–84.
- Ambrosi, A., A. Morrin, M.R. Smyth, and A.J. Killard. 2008. The application of conducting polymer nanoparticle electrodes to the sensing of ascorbic acid. Analytica Chimica Acta 609:37–43.
- Chairam, S., W. Sriraksa, M. Amatatongchai, and E. Somsook. (2011). Electrocatalytic Oxidation of Ascorbic Acid Using a Poly(aniline-co-m-ferrocenylaniline) Modified Glassy Carbon Electrode. Sensors 11: 10166.
- Chao, D., L. Cui, X. Lu, H. Mao, W. Zhang, and Y. Wei. 2007. Electroactive polyimide with oligoaniline in the main chain via oxidative coupling polymerization. European Polymer Journal 43:2641–47.
- Chao, D., X. Jia, F. Bai, H. Liu, L. Cui, E.B. Berda, and C. Wang. 2012. An efficient fluorescent sensor for redox active species based on novel poly(aryl ether) containing electroactive pendant. Journal of Materials Chemistry 22:3028–34.
- Chao, D., J. Zhang, X. Liu, X. Lu, C. Wang, W. Zhang, and Y. Wei. 2010. Synthesis of novel poly(amic acid) and polyimide with oligoaniline in the main chain and their thermal, electrochemical, and dielectric properties. Polymer 51:4518–24.
- Chen, L., Y. Yu, H. Mao, X. Lu, W. Zhang, and Y. Wei. 2005. Synthesis of phenyl-capped aniline heptamer and its UV-vis spectral study. Synthetic Metals 149:129–34.
- Cui, H., Y. Liu, M. Deng, X. Pang, P. Zhang, X. Wang, X. Chen, and Y. Wei. 2012. Synthesis of biodegradable and electroactive tetraaniline grafted poly(ester amide) copolymers for bone tissue engineering. Biomacromolecules 13:2881–89.
- Fang, Y., Q. Jiang, M. Deng, Y. Tian, Q. Wen, and M. Wang. 2015. Preparation in-situ of carbon nanotubes/polyaniline modified electrode and application for ascorbic acid detection. Journal of Electroanalytical Chemistry 755:39–46.
- Guo, B., A. Finne Wistrand, and A.C. Albertsson. 2010. Molecular architecture of electroactive and biodegradable copolymers composed of polylactide and carboxyl-capped aniline trimer. Biomacromolecules 11:855–63.
- Guo, B., Y. Sun, A. Finne-Wistrand, K. Mustafa, and A.C. Albertsson. 2012. Electroactive porous tubular scaffolds with degradability and non-cytotoxicity for neural tissue regeneration. Acta Biomaterialia 8:144–53.
- Han, Y., and Y. Furukawa. 2006. Conducting polyaniline and biofuel cell. International Journal of Green Energy 3:17–23.
- Huang, H.Y., T.C. Huang, J.C. Lin, J.H. Chang, Y.T. Lee, and J.M. Yeh. 2013. Advanced environmentally friendly coatings prepared from amine-capped aniline trimer-based waterborne electroactive polyurethane. Materials Chemistry and Physics 137:772–80.
- Huang, T.C., L.C. Yeh, H.Y. Huang, Z.Y. Nian, Y.C. Yeh, Y.C. Chou, J.M. Yeh, and M.H. Tsai. 2014. The use of a carbon paste electrode mixed with multiwalled carbon nanotube/electroactive polyimide composites as an electrode for sensing ascorbic acid. Polymer Chemistry 5:630–37.
- Huang, T.C., S.T. Lin, L.C. Yeh, C.A. Chen, H.Y. Huang, Z.Y. Nian, H.H. Chen, and J.M. Yeh. 2012a. Aniline pentamer-based electroactive polyimide prepared from oxidation coupling polymerization for electrochemical sensing application. Polymer 53:4373–79.
- Huang, T.C., Y.A. Su, T.C. Yeh, H.Y. Huang, K.Y. Huang, Y.C. Chou, J.M. Yeh, and Y. Wei. 2011a. Advanced anticorrosive coatings prepared from electroactive epoxy-SiO2 hybrid nanocomposite materials. Electrochimica Acta 56:6142–49.
- Huang, T.C., T.C. Yeh, H.Y. Huang, W.F. Ji, Y.C. Chou, W.I. Hung, J.M. Yeh, and M.H. Tsai. 2011b. Electrochemical studies on aniline-pentamer-based electroactive polyimide coating: Corrosion protection and electrochromic properties. Electrochimica Acta 56:10151–58.
- Huang, T.C., T.C. Yeh, H.Y. Huang, W.F. Ji, T.C. Lin, C.A. Chen, T.I. Yang, and J.M. Yeh. 2012b. Electrochemical investigations of the anticorrosive and electrochromic properties of electroactive polyamide. Electrochimica Acta 63:185–91.
- Hung, W.I., C.B. Hung, Y.H. Chang, J.K. Dai, Y. Li, H. He, S.W. Chen, T.C. Huang, Y. Wei, X.R. Jia, and J.M. Yeh. 2011. Synthesis and electroactive properties of poly(amidoamine) dendrimers with an aniline pentamer shell. Journal of Materials Chemistry 21:4581–87.
- Jia, X., D. Chao, E.B. Berda, S. Pei, H. Liu, T. Zheng, and C. Wang. 2011a. Fabrication of electrochemically responsive surface relief diffraction gratings based on a multifunctional polyamide containing oligoaniline and azo groups. Journal of Materials Chemistry 21:18317–24.
- Jia, X., D. Chao, H. Liu, L. He, T. Zheng, X. Bian, and C. Wang. 2011b. Synthesis and properties of novel electroactive poly(amic acid) and polyimide copolymers bearing pendant oligoaniline groups. Polymer Chemistry 2:1300–06.
- Jin, E., X. Lu, X. Bian, L. Kong, W. Zhang, and C. Wang. 2010. Unique tetragonal starlike polyaniline microstructure and its application in electrochemical biosensing. Journal of Materials Chemistry 20:3079–83.
- Koshiishi, I. and T. Imanari. 1997. Measurement of ascorbate and dehydroascorbate contents in biological fluids. Analytical Chemistry 69:216–20.
- Li, F., M. Zhou, J. Wang, X. Liu, C. Wang, and D. Chao. 2015. Synthesis and electrochemical properties of electroactive hyperbranched poly(aryl ether ketone) bearing oligoaniline segments. Synthetic Metals 205:42–47.
- MacDiarmid, A.G. 2001. “Synthetic metals”: A novel role for organic polymers (nobel lecture). Angewandte Chemie International Edition 40:2581–90.
- Manivel, P., M. Dhakshnamoorthy, A. Balamurugan, N. Ponpandian, D. Mangalaraj, and C. Viswanathan. 2013. Conducting polyaniline-graphene oxide fibrous nanocomposites: preparation, characterization and simultaneous electrochemical detection of ascorbic acid, dopamine and uric acid. RSC Advances 3:14428–37.
- Ragupathy, D., J.J. Park, S.C. Lee, J.C. Kim, P. Gomathi, M.K. Kim, S.M. Lee, H.D. Ghim, A. Rajendran, S.H. Lee, and K.M. Jeon. 2011. Electrochemical grafting of poly(2,5-dimethoxy aniline) onto multiwalled carbon nanotubes nanocomposite modified electrode and electrocatalytic oxidation of ascorbic acid. Macromolecular Research 19:764–69.
- Roy, A.K., V.S. Nisha, C. Dhand, and B.D. Malhotra. 2011. Molecularly imprinted polyaniline film for ascorbic acid detection. Journal of molecular recognition 24:700–6.
- Shao, Z., Z. Yu, J. Hu, S. Chandrasekaran, D.M. Lindsay, Z. Wei, and C.F.J. Faul. 2012. Block-like electroactive oligo(aniline)s: anisotropic structures with anisotropic function. Journal of Materials Chemistry 22:16230–34.
- Tiwari, I., K.P. Singh, M. Singh, and C.E. Banks. 2012. Polyaniline/polyacrylic acid/multi-walled carbon nanotube modified electrodes for sensing ascorbic acid. Analytical Methods 4:118–24.
- Udeh, C.U., N. Fey, and C.F.J. Faul. 2011. Functional block-like structures from electroactive tetra(aniline) oligomers. Journal of Materials Chemistry 21:18137–53.
- Upadhyay, D., N.Y. Cui, C. Anderson, and N. Brown. 2004. A comparative study of the surface activation of polyamides using an air dielectric barrier discharge. Colloids and Surfaces A: Physicochemical and Engineering Aspects 248:47–56.
- Wang, L. X., T. Soczka-Guth, E. Havinga, and K. Müllen. 1996. Poly(phenylenesulfidephenylenamine) (PPSA)—the “Compound” of polyphenylenesulfide with polyaniline. Angewandte Chemie International Edition in English 35:1495–97.
- Wang, S., D. Chao, E.B. Berda, X. Jia, R. Yang, X. Wang, T. Jiang, and C. Wang. 2013. Fabrication of electroactive oligoaniline functionalized poly(amic acid) nanofibers for application as an ammonia sensor. RSC Advances 3: 4059–65.
- Wang, Y., J. Liu, H.D. Tran, M. Mecklenburg, X.N. Guan, A.Z. Stieg, B.C. Regan, D.C. Martin, and R.B. Kaner. 2012. Morphological and dimensional control via hierarchical assembly of doped oligoaniline single crystals. Journal of the American Chemical Society 134:9251–62.
- Wang, Y., H.D. Tran, L. Liao, X. Duan, and R.B. Kaner. 2010. Nanoscale morphology, dimensional control, and electrical properties of oligoanilines. Journal of the American Chemical Society 132:10365–73.
- Wei, Z. and C.F.J. Faul. 2008. Aniline oligomers – architecture, function and new opportunities for nanostructured materials. Macromolecular Rapid Communications 29:280–92.
- Wessling, B. 1994. Passivation of metals by coating with polyaniline: Corrosion potential shift and morphological changes. Advanced Materials 6:226–28.
- Yan, D., H.B. Zhang, Y. Jia, J. Hu, X.Y. Qi, Z. Zhang, and Z.Z. Yu. 2012. Improved electrical conductivity of polyamide/graphene nanocomposites with maleated polyethylene-octene rubber prepared by melt compounding. ACS Applied Materials & Interfaces 4:4740–45.
- Yeh, L.C., T.C. Huang, Y.P. Huang, H.Y. Huang, H.H. Chen, T.I. Yang, and J.M. Yeh. 2013. Synthesis electroactive polyurea with aniline-pentamer-based in the main chain and its application in electrochemical sensor. Electrochimica Acta 94:300–06.
- Yeh, T.C., T.C. Huang, H.Y. Huang, Y.P. Huang, Y.T. Cai, S.T. Lin, Y. Wei, and J.M. Yeh. 2012. Electrochemical investigations on anticorrosive and electrochromic properties of electroactive polyurea. Polymer Chemistry 3: 2209–16.
- Zhang, L. and S. Dong. 2004. The electrocatalytic oxidation of ascorbic acid on polyaniline film synthesized in the presence of camphorsulfonic acid. Journal of Electroanalytical Chemistry 568:189–94.
- Zhang, L., C. Zhang, and J. Lian. 2008. Electrochemical synthesis of polyaniline nano-networks on p-aminobenzene sulfonic acid functionalized glassy carbon electrode: Its use for the simultaneous determination of ascorbic acid and uric acid. Biosensors and Bioelectronics 24:690–95.