This article is distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Feng X.J., Chen S.F., Ni Y., Wong M.S., Lam M.M.K., Cheah K.W., Lai G.Q., Org. Electron, 15 (2014), 57.FengX.J.ChenS.F.NiY.WongM.S.LamM.M.K.CheahK.W.LaiG.Q.1520145710.1016/j.orgel.2013.10.019Search in Google Scholar
Tsuji M., Saeki A., Koizumi Y., Matsuyama N., Vijaykumar C., Seki S., Adv. Funct. Mater, 24 (2014), 28.TsujiM.SaekiA.KoizumiY.MatsuyamaN.VijaykumarC.SekiS.2420142810.1002/adfm.201301371Search in Google Scholar
Lam K.H., Foong T.R.B., Zhang J., Grimsdale A.C., Lam Y. M., Org. Electron, 15 (2014), 1592.LamK.H.FoongT.R.B.ZhangJ.GrimsdaleA.C.LamY. M.152014159210.1016/j.orgel.2014.03.041Search in Google Scholar
Vilbrandt D., Gassmann, A., Seggern H. V., Rehan, M., Macromolecules, 49 (2016), 1674.VilbrandtD.GassmannA.SeggernH. V.RehanM.492016167410.1021/acs.macromol.5b01249Search in Google Scholar
Jou J.-H., Kumar S., Agrawal A., Li T.-H., Sahoo S.,J. Mater. Chem. C, 3 (2015), 2974.JouJ.-H.KumarS.AgrawalA.LiT.-H.SahooS.32015297410.1039/C4TC02495HSearch in Google Scholar
Beaupre S., Lellerc M., Adv. Funct. Mater., 12 (2002), 192.BeaupreS.LellercM.12200219210.1002/1616-3028(200203)12:3<192::AID-ADFM192>3.0.CO;2-USearch in Google Scholar
Beaupre S., Leclerc M., Macromoleules, 36 (2003), 8986.BeaupreS.LeclercM.362003898610.1021/ma035064jSearch in Google Scholar
Gao Z.Q., Mi B.X., Chen C.H., Cheah K.W., Cheng Y.K., Wen W.S., Appl. Phys. Lett., 90 (2007), 1235.GaoZ.Q.MiB.X.ChenC.H.CheahK.W.ChengY.K.WenW.S.902007123510.1063/1.2715041Search in Google Scholar
Yuan C., Saito S., Camacho C., Irle S., Hisaki I., Yamaguchi S., J. Am. Chem. Soc, 135 (2013), 8842.YuanC.SaitoS.CamachoC.IrleS.HisakiI.YamaguchiS.1352013884210.1021/ja404198hSearch in Google Scholar
Usluer Ö., Demic S., Kus M., Özel F., Sarciftci N.S., J. Lumin., 146 (2014), 6.UsluerÖ.DemicS.KusM.ÖzelF.SarciftciN.S.1462014610.1016/j.jlumin.2013.09.044Search in Google Scholar
Lu C., Wang H., Wang X., Li Y., Oiu T., He L., Li X., J. Appl. Polym. Sci., 117 (2010), 517.LuC.WangH.WangX.LiY.OiuT.HeL.LiX.1172010517Search in Google Scholar
Zheng C.-J., Zhao W.-M., Wang Z.-Q., Huang D., Ye J., Ou X.-M., Zhang X.-H., Lee C.-S., Lee S.T., J. Mater. Chem., 20 (2010), 1560.ZhengC.-J.ZhaoW.-M.WangZ.-Q.HuangD.YeJ.OuX.-M.ZhangX.-H.LeeC.-S.LeeS.T.202010156010.1039/b918739aSearch in Google Scholar
Zhuang S., Shangguan R., Huang H., Tu G., Wang L., Zhu X., Dyes Pigments, 101 (2014), 93.ZhuangS.ShangguanR.HuangH.TuG.WangL.ZhuX.10120149310.1016/j.dyepig.2013.08.027Search in Google Scholar
Pan B., Wang B., Wang Y., Xu P., Wang L., Chen J., Ma D., J. Mater. Chem. C, 2 (2014), 2466.PanB.WangB.WangY.XuP.WangL.ChenJ.MaD.22014246610.1039/C3TC32388ASearch in Google Scholar
Loy D.E., Koene B.E., Thompson M.E., Adv. Funct. Mater., 12 (2002), 245.LoyD.E.KoeneB.E.ThompsonM.E.12200224510.1002/1616-3028(20020418)12:4<245::AID-ADFM245>3.0.CO;2-5Search in Google Scholar
Friend R.H., Gymer R.W., Holmes A.B., Burroughes J.H., Marks R. N, Taliani C., Bradely D.D.C., Santos D.A.D., Bredes J.L., Logdlund M., Salaneck W.R., Nature, 397 (1999), 121.FriendR.H.GymerR.W.HolmesA.B.BurroughesJ.H.MarksR. NTalianiC.BradelyD.D.C.SantosD.A.D.BredesJ.L.LogdlundM.SalaneckW.R.397199912110.1038/16393Search in Google Scholar
Bernius M.T., Inbasekaran M., O’brien J., Wu W., Adv. Mater., 12 (2000), 1737.BerniusM.T.InbasekaranM.O’brienJ.WuW.122000173710.1002/1521-4095(200012)12:23<1737::AID-ADMA1737>3.0.CO;2-NSearch in Google Scholar
Pei Q., Yang Y., J. Am. Chem. Soc., 118 (1996), 7418.PeiQ.YangY.1181996741810.1021/ja960940cSearch in Google Scholar
Muller C. D., Falcou A., Reckefuss N., Rojahn M., Wiederhirn V., Rudati P., Frohne H., Nuyken O., Becker H., Meerholz K., Nature, 421 (2003), 829.MullerC. D.FalcouA.ReckefussN.RojahnM.WiederhirnV.RudatiP.FrohneH.NuykenO.BeckerH.MeerholzK.421200382910.1038/nature01390Search in Google Scholar
Saxena V., Shirodkar V.S., J. Appl. Polym. Sci., 77 (2000), 1051.SaxenaV.ShirodkarV.S.772000105110.1002/1097-4628(20000801)77:5<1051::AID-APP12>3.0.CO;2-ASearch in Google Scholar
Su H.-J., Wu F.-I., Shu C.-F., Macromolecules, 37 (2004), 7197.SuH.-J.WuF.-I.ShuC.-F.372004719710.1021/ma048797sSearch in Google Scholar
Su H.-J., Wu F.-I., Tseng Y.-H., Shu C.-F., Adv. Funct. Mater., 15 (2005), 1209.SuH.-J.WuF.-I.TsengY.-H.ShuC.-F.152005120910.1002/adfm.200400269Search in Google Scholar
Xia Y., Zhong C., Li B., Wu H., Cao Y., Fan D., J. Appl. Polym. Sci., 125 (2012), 1409.XiaY.ZhongC.LiB.WuH.CaoY.FanD.1252012140910.1002/app.35566Search in Google Scholar
Sahu D., Tsai C.-H., Wei H.-Y., Ho K.-C., Changc F.-C., Chu C.-W., J. Mater. Chem., (22) 2012, 7945.SahuD.TsaiC.-H.WeiH.-Y.HoK.-C.ChangcF.-C.ChuC.-W.222012794510.1039/c2jm16760cSearch in Google Scholar
Sahu D., Kekuda D., Chu C.-W., DSSG-2013, National Institute of Science and Technology, 29th November – 1st December, 2013, p 33.SahuD.KekudaD.ChuC.-W.National Institute of Science and Technology29th November – 1st December, 201333Search in Google Scholar
Sahu D., Padhy H., Patra D., Kekuda D., Chu C.-W., Chiang I.H., Lin H.-C., Polymer, 51 (2010), 6182.SahuD.PadhyH.PatraD.KekudaD.ChuC.-W.ChiangI.H.LinH.-C.512010618210.1016/j.polymer.2010.10.018Search in Google Scholar
Sahu D., Padhy H., Patra D., Yin J.-F., Hsu Y.-C., Lin J.-T., Lu K.-L., Wei K.-H., Lin H.-C., Tetrahedron, 67 (2011), 303.SahuD.PadhyH.PatraD.YinJ.-F.HsuY.-C.LinJ.-T.LuK.-L.WeiK.-H.LinH.-C.67201130310.1016/j.tet.2010.11.044Search in Google Scholar
De Leeuw D.M., Simenon M.M.J., Brown A.R., Einerhand R.E.F., Synth. Met., 87 (1997), 53.De LeeuwD.M.SimenonM.M.J.BrownA.R.EinerhandR.E.F.8719975310.1016/S0379-6779(97)80097-5Search in Google Scholar
Yang P.-J., Wu C.-W., Sahu D., Lin H.-C., Macromolecules, 4 (2008), 9692.YangP.-J.WuC.-W.SahuD.LinH.-C.42008969210.1021/ma801005cSearch in Google Scholar