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Artículos de revistas sobre el tema "Polythiophene/Polystyrene"

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Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 12 de febrero de 2022

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1

Li, Hong Yu y Tian Xiao. "Polythiophene-Coated Polystyrene Core-Shell Nanoparticles with a Rod-Shaped Polythiophene Shell". Advanced Materials Research 712-715 (junio de 2013): 169–74. http://dx.doi.org/10.4028/www.scientific.net/amr.712-715.169.

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A core-shell nanocomposite particle with polystyrene sphere core and polythiophene overlayer shell was synthesized through thiophene chemical oxidative polymerization using uniquely structured polystyrene latexes template. The morphology of polythiophene shell, which has nanorods shaped or featureless surface morphology, can be simply controlled through varying the dosage and feeding methods of oxidizers.
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2

Massoumi, Bakhshali, Farhang Abbasi y Mehdi Jaymand. "Chemical and electrochemical grafting of polythiophene onto polystyrene synthesized via ‘living’ anionic polymerization". New Journal of Chemistry 40, n.º 3 (2016): 2233–42. http://dx.doi.org/10.1039/c5nj02104a.

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3

SAMIR, F., M. MORSLI, A. BONNET, A. CONAN y S. LEFRANT. "Transport properties of conducting polythiophene-polystyrene composites". Le Journal de Physique IV 03, n.º C7 (noviembre de 1993): C7–1565—C7–1568. http://dx.doi.org/10.1051/jp4:19937244.

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4

Li, Hongyu, Lihong Shen, Shuming Liu y Le Zhang. "Preparation of rod-shaped polythiophene-coated polystyrene nanocomposite particles". Colloid and Polymer Science 292, n.º 12 (3 de septiembre de 2014): 3319–26. http://dx.doi.org/10.1007/s00396-014-3376-8.

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5

Jung, Yeon Jae, Seung Mo Lee, Subramani Sankaraiah, In Woo Cheong, Sung Wook Choi y Jung Hyun Kim. "One-step synthesis of photoluminescent core/shell polystyrene/polythiophene particles". Macromolecular Research 19, n.º 11 (1 de octubre de 2011): 1114–20. http://dx.doi.org/10.1007/s13233-011-1110-7.

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6

Lee, Seung Mo, Sun Jong Lee, Jung Hyun Kim y In Woo Cheong. "Synthesis of polystyrene/polythiophene core/shell nanoparticles by dual initiation". Polymer 52, n.º 19 (septiembre de 2011): 4227–34. http://dx.doi.org/10.1016/j.polymer.2011.07.011.

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7

Jaczewska, J., A. Budkowski, A. Bernasik, I. Raptis, J. Raczkowska, D. Goustouridis, J. Rysz y M. Sanopoulou. "Humidity and solvent effects in spin-coated polythiophene–polystyrene blends". Journal of Applied Polymer Science 105, n.º 1 (2007): 67–79. http://dx.doi.org/10.1002/app.26012.

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8

Sarvari, Raana, Samira Agbolaghi, Bakhshali Massoumi y Nafiseh Sorkhishams. "Electroactive polythiophene/polystyrene bottlebrushes as morphology compatibilizers in photovoltaic systems". Polymer International 69, n.º 4 (27 de enero de 2020): 397–403. http://dx.doi.org/10.1002/pi.5965.

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9

Shen, Jie y Kenji Ogino. "Synthesis of Highly Fluorescent Polythiophene with Polystyrene Branches Using ATRP". Chemistry Letters 34, n.º 12 (diciembre de 2005): 1616–17. http://dx.doi.org/10.1246/cl.2005.1616.

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10

François, B. y T. Olinga. "Polystyrene-polythiophene block copolymers (PS-PT) synthesis, characterization and doping". Synthetic Metals 57, n.º 1 (abril de 1993): 3489–94. http://dx.doi.org/10.1016/0379-6779(93)90464-8.

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11

Shen, Jie, Kousuke Tsuchiya y Kenji Ogino. "Synthesis and characterization of highly fluorescent polythiophene derivatives containing polystyrene sidearms". Journal of Polymer Science Part A: Polymer Chemistry 46, n.º 3 (2007): 1003–13. http://dx.doi.org/10.1002/pola.22443.

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12

Wolf, Caitlyn M., Lorenzo Guio, Sage C. Scheiwiller, Ryan P. O’Hara, Christine K. Luscombe y Lilo D. Pozzo. "Blend Morphology in Polythiophene–Polystyrene Composites from Neutron and X-ray Scattering". Macromolecules 54, n.º 6 (2 de marzo de 2021): 2960–78. http://dx.doi.org/10.1021/acs.macromol.0c02512.

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13

Mabboux, P. Y., J. P. Travers, Y. Nicolau, E. Samuelsen, P. H. Carlsen y B. François. "Spin dynamics in poly-(3-alkylthiophenes) and in a block polystyrene - polythiophene copolymer". Synthetic Metals 69, n.º 1-3 (marzo de 1995): 361–62. http://dx.doi.org/10.1016/0379-6779(94)02486-i.

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14

Wang, Hsing Lin, Levent Toppare y Jack E. Fernandez. "Conducting polymer blends: polythiophene and polypyrrole blends with polystyrene and poly(bisphenol A carbonate)". Macromolecules 23, n.º 4 (julio de 1990): 1053–59. http://dx.doi.org/10.1021/ma00206a024.

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15

Ali, Waqas, Ayesha Kausar y Tahir Iqbal. "Reinforcement of high performance polystyrene/polyamide/polythiophene with multi-walled carbon nanotube obtained through various routes". Composite Interfaces 22, n.º 9 (14 de agosto de 2015): 885–97. http://dx.doi.org/10.1080/09276440.2015.1076251.

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16

Grana, Eftychia, Dimitrios Katsigiannopoulos, Alexander E. Karantzalis, Maria Baikousi y Apostolos Avgeropoulos. "Synthesis and molecular characterization of polythiophene and polystyrene copolymers: Simultaneous preparation of diblock and miktoarm copolymers". European Polymer Journal 49, n.º 5 (mayo de 2013): 1089–97. http://dx.doi.org/10.1016/j.eurpolymj.2013.01.011.

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17

Hatamzadeh, Maryam y Mehdi Jaymand. "Synthesis and characterization of polystyrene-graft-polythiophene via a combination of atom transfer radical polymerization and Grignard reaction". RSC Adv. 4, n.º 32 (2014): 16792–802. http://dx.doi.org/10.1039/c4ra01228c.

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18

González, Francisco, Pilar Tiemblo y Mario Hoyos. "In-Situ Approaches for the Preparation of Polythiophene-Derivative Cellulose Composites with High Flexibility and Conductivity". Applied Sciences 9, n.º 16 (15 de agosto de 2019): 3371. http://dx.doi.org/10.3390/app9163371.

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Composite materials of conjugated polymers/cellulose were fabricated by incorporating different polythiophene-derivative polymers: Poly(3,4-ethylenedioxythiophene) (PEDOT) and an alkylated derivative of poly(3,4-propylenedioxythiophene) (PProDOT). These conjugated polythiophenes were deposited by casting or spray coating methodologies onto three different cellulose substrates: Conventional filters papers as cellulose acetate, cellulose grade 40 Whatman® and cellulose membranes prepared from cellulose microfibers. The preparation of composite materials was carried out by two methodologies: (i) by employing in-situ polymerization of 3,4-ethylenedioxithiophene (EDOT) or (ii) by depositing solutions of poly(3,4-ethylenedioxythiophene):polystyrene sulfonate (PEDOT:PSS) or lab-synthetized PProDOT. Composite materials were studied in terms of electrical conductivity and surface morphology assessed by impedance spectroscopy, surface conductivity, SEM, and 3D optical profilometry. In-situ composite materials prepared by spray coating using iron trifluoromethane sulfonate as oxidizing agent can be handled and folded as the original cellulose membranes displaying a surface conductivity around 1 S∙cm−1. This versatile procedure to prepare conductive composite materials has the potential to be implemented in flexible electrodes for energy storage applications.
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19

Vatani, Zoha y Hossein Eisazadeh. "Synthesis and thermal stability of polystyrene and poly(vinyl chloride) coated with polythiophene and modified with Fe2O3nanoparticles". Journal of Vinyl and Additive Technology 20, n.º 4 (27 de mayo de 2014): 212–17. http://dx.doi.org/10.1002/vnl.21378.

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20

Vatani, Zoha y Hossein Eisazadeh. "Application of Polythiophene Nanocomposite Coated on Polystyrene and Poly(Vinyl Chloride) for Removal of Pb(II) from Aqueous Solution". Polymer-Plastics Technology and Engineering 52, n.º 15 (8 de diciembre de 2013): 1621–25. http://dx.doi.org/10.1080/03602559.2013.828235.

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21

Kausar, Ayesha. "Polymeric nanocomposites reinforced with nanowires: Opening doors to future applications". Journal of Plastic Film & Sheeting 35, n.º 1 (15 de agosto de 2018): 65–98. http://dx.doi.org/10.1177/8756087918794009.

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This article presents a state-of-the-art overview on indispensable aspects of polymer/nanowire nanocomposites. Nanowires created from polymers, silver, zinc, copper, nickel, and aluminum have been used as reinforcing agents in conducting polymers and non-conducting thermoplastic/thermoset matrices such as polypyrrole, polyaniline, polythiophene, polyurethane, acrylic polymers, polystyrene, epoxy and rubbers. This review presents the combined influence of polymer matrix and nanowires on the nanocomposite characteristics. This review shows how the nanowire, the nanofiller content, the matrix type and processing conditions affect the final nanocomposite properties. The ensuing multifunctional polymer/nanowire nanocomposites have high strength, conductivity, thermal stability, and other useful photovoltaic, piezo, and sensing properties. The remarkable nanocomposite characteristics have been ascribed to the ordered nanowire structure and the development of a strong interface between the matrix/nanofiller. This review also refers to cutting edge application areas of polymer/nanowire nanocomposites such as solar cells, light emitting diodes, supercapacitors, sensors, batteries, electromagnetic shielding materials, biomaterials, and other highly technical fields. Modifying nanowires and incorporating them in a suitable polymer matrix can be adopted as a powerful future tool to create useful technical applications.
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22

Wang, Yading y M. F. Rubner. "Fabrication of an Electrically Conducting Full-Interpenetrating Polymer Network". MRS Proceedings 247 (1992). http://dx.doi.org/10.1557/proc-247-759.

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ABSTRACTFull-interpenetrating polymer networks (IPN) comprised of a styrene crosslinked polythiophene derivative and a crosslinked polystyrene network were synthesized and characterized. The IPNs were prepared by first crosslinking the pendant groups of a vinyl derivatized polythiophene with styrene monomer and then polymerizing and crosslinking styrene monomer in a swollen gel of the crosslinked polythiophene network. The doped forms of these full-IPNs reached conductivities as high as 0.5 S/cm. Conductivity stability studies showed that the IPNs are more stable than the as-prepared conjugated polymer at 40 °C but somewhat less stable at 80 °C.
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