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Special Issue: Conductive Polymers: Materials and Applications

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Special Issue: Conductive Polymers: Materials and Applications

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Quijada, C. (2020). Special Issue: Conductive Polymers: Materials and Applications. Materials. 13(10):1-4. https://doi.org/10.3390/ma13102344

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/170574

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Metadatos del ítem

Título: Special Issue: Conductive Polymers: Materials and Applications
Autor: Quijada, César
Entidad UPV: Universitat Politècnica de València. Departamento de Ingeniería Textil y Papelera - Departament d'Enginyeria Tèxtil i Paperera
Fecha difusión:
Resumen:
[EN] Intrinsically conductive polymers (CPs) combine the inherent mechanical properties of organic polymers with charge transport, opto-electronic and redox properties that can be easily tuned up to those typical of ...[+]
Palabras clave: Polyacetylene , Polyaniline , Polypyrrole , PEDOT-PSS , Copolymers , Charge transport models , Silica gel composite , Carbon composite , Antimicrobial , Drug release , Sensors , Adsorption
Derechos de uso: Reconocimiento (by)
Fuente:
Materials. (eissn: 1996-1944 )
DOI: 10.3390/ma13102344
Editorial:
MDPI AG
Versión del editor: https://doi.org/10.3390/ma13102344
Tipo: Artículo

References

Le, T.-H., Kim, Y., & Yoon, H. (2017). Electrical and Electrochemical Properties of Conducting Polymers. Polymers, 9(12), 150. doi:10.3390/polym9040150

Hudson, B. (2018). Polyacetylene: Myth and Reality. Materials, 11(2), 242. doi:10.3390/ma11020242

Robertson, J., Gizdavic-Nikolaidis, M., & Swift, S. (2018). Investigation of Polyaniline and a Functionalised Derivative as Antimicrobial Additives to Create Contamination Resistant Surfaces. Materials, 11(3), 436. doi:10.3390/ma11030436 [+]
Le, T.-H., Kim, Y., & Yoon, H. (2017). Electrical and Electrochemical Properties of Conducting Polymers. Polymers, 9(12), 150. doi:10.3390/polym9040150

Hudson, B. (2018). Polyacetylene: Myth and Reality. Materials, 11(2), 242. doi:10.3390/ma11020242

Robertson, J., Gizdavic-Nikolaidis, M., & Swift, S. (2018). Investigation of Polyaniline and a Functionalised Derivative as Antimicrobial Additives to Create Contamination Resistant Surfaces. Materials, 11(3), 436. doi:10.3390/ma11030436

Shah, S., Firlak, M., Berrow, S., Halcovitch, N., Baldock, S., Yousafzai, B., … Hardy, J. (2018). Electrochemically Enhanced Drug Delivery Using Polypyrrole Films. Materials, 11(7), 1123. doi:10.3390/ma11071123

Dkhili, S., López-Bernabeu, S., Kedir, C., Huerta, F., Montilla, F., Besbes-Hentati, S., & Morallon, E. (2018). An Electrochemical Study on the Copolymer Formed from Piperazine and Aniline Monomers. Materials, 11(6), 1012. doi:10.3390/ma11061012

Djelad, H., Benyoucef, A., Morallón, E., & Montilla, F. (2020). Reactive Insertion of PEDOT-PSS in SWCNT@Silica Composites and its Electrochemical Performance. Materials, 13(5), 1200. doi:10.3390/ma13051200

Sowa, I., Wójciak-Kosior, M., Strzemski, M., Sawicki, J., Staniak, M., Dresler, S., … Latalski, M. (2018). Silica Modified with Polyaniline as a Potential Sorbent for Matrix Solid Phase Dispersion (MSPD) and Dispersive Solid Phase Extraction (d-SPE) of Plant Samples. Materials, 11(4), 467. doi:10.3390/ma11040467

Muhammad, A., Shah, A.-H. A., Bilal, S., & Rahman, G. (2019). Basic Blue Dye Adsorption from Water Using Polyaniline/Magnetite (Fe3O4) Composites: Kinetic and Thermodynamic Aspects. Materials, 12(11), 1764. doi:10.3390/ma12111764

Muhammad, Shah, & Bilal. (2019). Comparative Study of the Adsorption of Acid Blue 40 on Polyaniline, Magnetic Oxide and Their Composites: Synthesis, Characterization and Application. Materials, 12(18), 2854. doi:10.3390/ma12182854

Quijada, Leite-Rosa, Berenguer, & Bou-Belda. (2019). Enhanced Adsorptive Properties and Pseudocapacitance of Flexible Polyaniline-Activated Carbon Cloth Composites Synthesized Electrochemically in a Filter-Press Cell. Materials, 12(16), 2516. doi:10.3390/ma12162516

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