Prof. Przemyslaw Data
Professor @ Silesian University of Technology
Home
Publications
Research
Team
Contact
Download CV
Electrochemically synthesised xanthone-cored conjugated polymers as materials for electrochromic windows
Publications
Year
2018
Type(s)
Journal Article
Author(s)
Higginbotham, H.F. and Czichy, M. and Sharma, B.K. and Shaikh, A.M. and Kamble, R.M. and Data, P.
Source
Electrochimica Acta, 273: 264—272, 2018
Url
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85045426301&doi=10.1016%2fj.electacta.2018.04.070&partnerID=40&md5=0ccb3b2afabd18c479e1597e68f80685
BibTeX
BibTeX
BibTeX
@ARTICLE{Higginbotham2018264, author={Higginbotham, H.F. and Czichy, M. and Sharma, B.K. and Shaikh, A.M. and Kamble, R.M. and Data, P.}, title={Electrochemically synthesised xanthone-cored conjugated polymers as materials for electrochromic windows}, journal={Electrochimica Acta}, year={2018}, volume={273}, pages={264-272}, doi={10.1016/j.electacta.2018.04.070}, note={cited By 7}, url={https://www.scopus.com/inward/record.uri?eid=2-s2.0-85045426301&doi=10.1016%2fj.electacta.2018.04.070&partnerID=40&md5=0ccb3b2afabd18c479e1597e68f80685}, affiliation={University of Durham, Physics Department, South Road, Durham, DH1 3LE, United Kingdom; Faculty of Chemistry, Silesian University of Technology, M. Strzody 9, Gliwice, 44-100, Poland; Department of Chemistry, University of Mumbai, Mumbai, 400 098, India; Center of Polymer and Carbon Materials, Polish Academy of Sciences, M. Curie-Sklodowskiej 34, Zabrze, 41-819, Poland}, abstract={In this work, we present the electrochemical polymerisation process of triarylamine-xanthone derivatives and behaviour of the formed polymers using various potentiodynamic techniques. The formed electropolymers have limited conjugation but show very promising electrochromic behaviour. Furthermore, by coupling the electrochemical analysis with each polymer's spectroscopic output, we were able to evaluate doping processes and the type of charge carriers formed. Through careful analysis, we were able to describe the electropolymerisation process and formed triarylamine-based polyxanthone derivatives. The polymers were found to exhibit good stability and good colouration efficiency to suggesting that they have potential application in electrochromic devices. © 2018 The Author(s)}, author_keywords={Electrochromic windows; Electron paramagnetic resonance; Electropolymerisation; Spectroelectrochemistry; Xanthone}, keywords={Electrochromism; Paramagnetic resonance; Spectroelectrochemistry; Spectroscopic analysis, Doping process; Electrochemical analysis; Electrochromic windows; Electrochromics; Electropolymerisation; Good stability; Potentiodynamic technique; Xanthone, Conjugated polymers}, funding_details={691684}, funding_details={641725}, funding_text 1={P.D. acknowledges the EU's Horizon 2020 for funding the ORZEL project under grant agreement No 691684 . H.H acknowledges the EU's Horizon 2020 for funding the PHEBE project under grant agreement No. 641725 . Appendix A}, references={Pron, A., Gawrys, P., Zagorska, M., Djurado, D., Demadrille, R., Electroactive materials for organic electronics: preparation strategies, structural aspects and characterization techniques (2010) Chem. Soc. Rev., 39, pp. 2577-2632; Hains, A.W., Liang, Z., Woodhouse, M.A., Gregg, B.A., Molecular semiconductors in organic photovoltaic cells (2010) Chem. Rev., 110, pp. 6689-6735; Xia, C., Fan, X., Locklin, J., Advincula, R.C., A first synthesis of thiophene dendrimers (2002) Org. Lett., 4, pp. 2067-2070; Idzik, K.R., Ledwon, P., Beckert, R., Golba, S., Frydel, J., Lapkowski, M., Electrochemical and spectral properties of meta-linked 1,3,5-tris(aryl)benzenes and 2,4,6-tris(aryl)-1-phenoles, and their polymers (2010) Electrochim. Acta, 55, pp. 7419-7426; Sun, X.B., Liu, Y.Q., Chen, S.Y., Qiu, W.F., Yu, G., Ma, Y.Q., Qi, T., Zhu, D.B., X-shaped electroactive molecular materials based on oligothiophene architectures: facile synthesis and photophysical and electrochemical properties (2006) Adv. Funct. Mater., 16, pp. 917-925; Burroughes, J.H., Bradley, D.D.C., Brown, A.R., Marks, R.N., Mackay, K., Friend, R.H., Burns, P.L., Holmes, A.B., Light-emitting diodes based on conjugated polymers (1990) Nature, 347, pp. 539-541; Grimsdale, A.C., Leok Chan, K., Martin, R.E., Jokisz, P.G., Holmes, A.B., Synthesis of light-emitting conjugated polymers for applications in electroluminescent devices (2009) Chem. Rev., 109, pp. 897-1091; Facchetti, A., π-conjugated polymers for organic electronics and photovoltaic cell applications (2011) Chem. Mater., 23, pp. 733-758; AlSalhi, M.S., Alam, J., Dass, L.A., Raja, M., Recent advances in conjugated polymers for light emitting devices (2011) Int. J. Mol. Sci., 12, pp. 2036-2054; Chizu, S., Yoshiaki, T., Takeshi, Y., Makoto, K., Shuji, D., Recent progress of high performance polymer OLED and OPV materials for organic printed electronics (2014) Sci. Technol. Adv. Mater., 15, p. 034203; Liao, L., Pang, Y., Ding, L., Karasz, F.E., Blue-emitting soluble poly(m-phenylenevinylene) derivatives (2001) Macromolecules, 34, pp. 7300-7305; Akcelrud, L., Electroluminescent polymers (2003) Prog. Polym. Sci., 28, pp. 875-962; Häussler, M., Liu, J., Zheng, R., Lam, J.W.Y., Qin, A., Tang, B.Z., Synthesis, thermal stability, and linear and nonlinear optical properties of hyperbranched polyarylenes containing carbazole and/or fluorene moieties (2007) Macromolecules, 40, pp. 1914-1925; Taranekar, P., Fulghum, T., Patton, D., Ponnapati, R., Clyde, G., Advincula, R., Investigating carbazole jacketed precursor dendrimers: sonochemical synthesis, characterization, and electrochemical crosslinking properties (2007) J. Am. Chem. Soc., 129, pp. 12537-12548; Heinze, J., Frontana-Uribe, B.A., Ludwigs, S., Electrochemistry of conducting polymers—persistent models and new concepts (2010) Chem. Rev., 110, pp. 4724-4771; Diaz, A.F., Logan, J.A., Electroactive polyaniline films (1980) J. Electroanal. Chem., 111, pp. 111-114; Tourillon, G., Garnier, F., New electrochemically generated organic conducting polymers (1982) J. Electroanal. Chem., 135, pp. 173-178; Waltman, R.J., Bargon, J., Electrically conducting polymers: a review of the electropolymerization reaction, of the effects of chemical structure on polymer film properties, and of applications towards technology (1986) Can. J. Chem., 64, pp. 76-95; Waltman, R.J., Diaz, A.F., Bargon, J., The electrochemical oxidation and polymerization of polycyclic hydrocarbons (1985) J. Electrochem. Soc., 132, pp. 631-634; Lana-Villarreal, T., Campina, J.M., Guijarro, N., Gomez, R., Solid-state electropolymerization and doping of triphenylamine as a route for electroactive thin films (2011) Phys. Chem. Chem. Phys., 13, pp. 4013-4021; Shirota, Y., Kageyama, H., Charge Carrier transporting molecular materials and their applications in devices (2007) Chem. Rev., 107, pp. 953-1010; Data, P., Lapkowski, M., Motyka, R., Suwinski, J., Electrochemistry and spectroelectrochemistry of a novel selenophene-based monomer (2012) Electrochim. Acta, 59, pp. 567-572; Gaupp, C.L., Welsh, D.M., Rauh, R.D., Reynolds, J.R., Composite coloration efficiency measurements of electrochromic polymers based on 3,4-alkylenedioxythiophenes (2002) Chem. Mater., 14, p. 3964; Data, P., Motyka, R., Lapkowski, M., Suwinski, J., Monkman, A.P., Spectroelectrochemical analysis of charge carriers as a way of improving poly(p-phenylene)-based electrochromic windows (2015) J. Phys. Chem. C, 119, pp. 20188-20200; Dyer, A.L., Craig, M.R., Babiarz, J.E., Kiyak, K., Reynolds, J.R., Orange and red to transmissive electrochromic polymers based on electron-rich dioxythiophenes (2010) Macromolecules, 43, pp. 4460-4467; Data, P., Zassowski, P., Lapkowski, M., Domagala, W., Krompiec, S., Flak, T., Penkala, M., Danikiewicz, W., Electrochemical and spectroelectrochemical comparison of alternated monomers and their copolymers based on carbazole and thiophene derivatives (2014) Electrochim. Acta, 122, pp. 118-129; Laba, K., Data, P., Zassowski, P., Pander, P., Lapkowski, M., Pluta, K., Monkman, A.P., Diquinoline derivatives as materials for potential optoelectronic applications (2015) J. Phys. Chem. C, 119, pp. 13129-13137; Pander, P., Data, P., Turczyn, R., Lapkowski, M., Swist, A., Soloducho, J., Monkman, A.P., Synthesis and characterization of chalcogenophene-based monomers with pyridine acceptor unit (2016) Electrochim. Acta, 210, pp. 773-782; Shin, H., Kim, Y., Bhuvana, T., Lee, J., Yang, X., Park, C., Kim, E., Color combination of conductive polymers for black electrochromis (2012) ACS Appl. Mater. Interfaces, 4, pp. 185-191; Data, P., Zassowski, P., Lapkowski, M., Grazulevicious, J.V., Kukhta, N.A., Reghu, R.R., Electrochromic behaviour of triazine based ambipolar compounds (2016) Electrochim. Acta, 192, pp. 283-295; Liu, H.-S., Pan, B.-C., Huang, D.-C., Kung, Y.-R., Leu, C.-M., Liou, G.-S., Highly, transparent to truly black electrochromic devices based on an ambipolar system of polyamides and viologen (2017) NPG Asia Mater., 9, p. e388; Seo, E.T., Nelson, R.F., Fritsch, J.M., Marcoux, L.S., Leedy, D.W., Adams, R.N., Anodic oxidation pathways of aromatic amines. Electrochemical and electron paramagnetic resonance studies (1966) J. Am. Chem. Soc., 88, pp. 3498-3503; Data, P., Pander, P., Zassowski, P., Mimaite, V., Karon, K., Lapkowski, M., Grazulevicius, J.V., Darowicki, K., Electrochemically induced synthesis of triphenylamine-based polyhydrazones (2017) Electrochim. Acta, 230, pp. 10-21; Huang, C.-W., Yuan Chiu, K., Cheng, S.-H., Novel spectral and electrochemical characteristics of triphenylamine-bound zinc porphyrins and their intramolecular energy and electron transfer (2005) Dalton Trans., pp. 2417-2422; Pluczyk, S., Zassowski, P., Rybakiewicz, R., Wielgosz, R., Zagorska, M., Lapkowski, M., Pron, A., UV-vis and EPR spectroelectrochemical investigations of triarylamine functionalized arylene bisimides (2015) RSC Adv., 5, pp. 7401-7412; Song, Y., Di, C.A., Yang, X., Li, S., Xu, W., Liu, Y., Yang, L., Zhu, D., A cyclic triphenylamine dimer for organic field-effect transistors with high performance (2006) J. Am. Chem. Soc., 128, pp. 15940-15941; Xiao, H., Ding, L., Ruan, D., Li, B., Ding, N., Ma, D., tert-Butylated spirobifluorene derivative incorporating triphenylamine groups: a deep-blue emitter with high thermal stability and good hole transport ability for organic light emitting diode applications (2015) Dyes Pigments, 121, pp. 7-12; Luponosov, Y.N., Solodukhin, A.N., Ponomarenko, S.A., Branched triphenylamine-based oligomers for organic electronics (2014) Polym. Sci. Ser. C, 56, pp. 104-134; Wong, M.Y., Zysman-Colman, E., Purely organic thermally activated delayed fluorescence materials for organic light-emitting diodes (2017) Adv. Mater., 29; Inoue, M., Serevicius, T., Nakanotani, H., Yoshida, K., Matsushima, T., Juršenas, S., Adachi, C., Effect of reverse intersystem crossing rate to suppress efficiency roll-off in organic light-emitting diodes with thermally activated delayed fluorescence emitters (2016) Chem. Phys. Lett., 644, pp. 62-67; Nakanotani, H., Higuchi, T., Furukawa, T., Masui, K., Morimoto, K., Numata, M., Tanaka, H., Adachi, C., High-efficiency organic light-emitting diodes with fluorescent emitters (2014) Nat. Commun., 5, p. 4016; Wang, H.-M., Hsiao, S.-H., Ambipolar, multi-electrochromic polypyromellitimides and polynaphthalimides containing di(tert-butyl)-substituted bis(triarylamine) units (2014) J. Mater. Chem. C, 2, pp. 1553-1564; Yen, H.-J., Novel starburst triarylamine-containing electroactive aramids with highly stable electrochromism in near-infrared and visible light regions (2011) Chem. Mater., 23, pp. 1874-1882; Monk, P.M.S., Mortimer, R.J., Rosseinsky, D.R., Electrochromism and Electrochromic Devices (2007), Cambridge University Press Cambridge; Coleman, M.P., Boyd, M.K., S-pixyl analogues as photocleavable protecting groups for nucleosides (2002) J. Org. Chem., 67, pp. 7641-7648; Guram, A.S., Buchwald, S.L., Palladium-Catalyzed aromatic aminations with in situ generated aminostannanes (1994) J. Am. Chem. Soc., 116, pp. 7901-7902; Paul, F., Patt, J., Hartwig, J.F., Palladium-catalyzed formation of carbon-nitrogen bonds. Reaction intermediates and catalyst improvements in the hetero cross-coupling of aryl halides and tin amides (1994) J. Am. Chem. Soc., 116, pp. 5969-5970; Sharma, B.K., Shaikh, A.M., Kamble, R.M., Synthesis, photophysical, electrochemical and thermal investigation of Triarylamines based on 9H-Xanthen-9-one: yellow–green fluorescent materials (2015) J. Chem. Sci., 127, pp. 2063-2071; Data, P., Pander, P., Lapkowski, M., Swist, A., Soloducho, J., Reghu, R.R., Grazulevicius, J.V., Unusual properties of electropolymerized 2,7- and 3,6- carbazole derivatives (2014) Electrochim. Acta, 128, pp. 430-438; Bredas, J.-L., Mind the gap! (2014) Mater. Horiz., 1, pp. 17-19; Data, P., Lapkowski, M., Motyka, R., Suwinski, J., Influence of heteroaryl group on electrochemical and spectroscopic properties of conjugated polymers (2012) Electrochim. Acta, 83, pp. 271-282; Karon, K., Lapkowski, M., Dabuliene, A., Tomkeviciene, A., Kostiv, N., Grazulevicius, J.V., Spectroelectrochemical characterization of conducting polymers from star-shaped carbazole-triphenylamine compounds (2015) Electrochim. Acta, 154, pp. 119-127; Huang, H., Zhou, N., Ortiz, R.P., Chen, Z., Loser, S., Zhang, S., Guo, X., Marks, T.J., Alkoxy-Functionalized thienyl-vinylene polymers for field effect transistors and all-polymer solar cells (2014) Adv. Funct. Mater., 24, pp. 2782-2793; Data, P., Lapkowski, M., Motyka, R., Suwinski, J., Influence of alkyl chain on electrochemical and spectroscopic properties of polyselenophenes (2013) Electrochim. Acta, 87, pp. 438-449}, correspondence_address1={Data, P.; University of Durham, Physics Department, South Road, United Kingdom; email: przemyslaw.data@polsl.pl}, publisher={Elsevier Ltd}, issn={00134686}, coden={ELCAA}, language={English}, abbrev_source_title={Electrochim Acta}, document_type={Article}, source={Scopus},