[1] 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. Nature, 1990, 347(6293): 539–541

[2] Mayer A C, Scully S R, Hardin B E, Rowell M W, McGehee M C. Polymer-based solar cells. Materials Today, 2007, 10(11): 28–33

[3] Chua L L, Zaumseil J, Chang J F, Ou E CW, Ho P K H, Sirringhaus H, Friend R H. General observation of n-type field-effect behaviour in organic semiconductors. Nature, 2005, 434(7030): 194–199

[4] Tessler N, Denton G J, Friend R H. Lasing from conjugated-polymer microcavities. Nature, 1996, 382(6593): 695–697

[5] Pisignano D, Anni M, Gigli G, Cingolani R, Zavelani-Rossi M, Lanzani G, Barbarella G, Favaretto L. Amplified spontaneous emission and efficient tunable laser emission from a substituted thiophene-based oligomer. Applied Physics Letters, 2002, 81(19): 3534–3536

[6] Forrest S R. The path to ubiquitous and low-cost organic electronic appliances on plastic. Nature, 2004, 428(6986): 911–918

[7] Virgili T, Marinotto D, Lanzani G, Bradley D D C. Ultrafast resonant optical switching in isolated polyfluorenes chains. Applied Physics Letters, 2005, 86(9): 091113

[8] Virgili T, Marinoto D, Manzoni C, Cerullo G, Lanzani G. Ultrafast intrachain photoexcitation of polymeric semiconductors. Physical Review Letters, 2005, 94(11): 117402

[9] Clark J, Bazzana L, Bradley D D C, Gonzalez J C, Lanzani G, Lidzey D G, Morgado J M, Nocivelli A, Tsoi W C, Virgili T, Xia R D. Blue polymer optical fiber amplifiers based on conjugated fluorene oligomers. Journal of Nanophotonics, 2008, 2(1): 023504

[10] Zubia J, Arrue J. Plastic optical fibers: an introduction to their technological processes and applications. Optical Fiber Technology, 2001, 7(2): 101–140

[11] Zeimann O, Krauser J, Zamzow P E, Daum W. POF: Polymer Optical Fibers for Data Communication. New York: Springer-Verlag Berlin Heidelberg, 2002

[12] Koike Y, Ishigure T. High-bandwidth plastic optical fiber for fiber to the display. Journal of Lightwave Technology, 2006, 24(12): 4541–4553

[13] Kuriki K, Koike Y, Okamoto Y. Plastic optical fiber lasers and amplifiers containing lanthanide complexes. Chemical Reviews, 2002, 102(6): 2347–2356

[14] Grell M, Bradley D D C, Long X, Chamberlain T, Inbasekaran M, Woo E P, Soliman M. Chain geometry, solution aggregation and enhanced dichroism in the liquidcrystalline conjugated polymer poly(9,9-dioctylfluorene). Acta Polymerica, 1998, 49(8): 439–444

[15] Dias F B, Morgado J, Ma anita A L, Da Costa F P, Burrows H D, Monkman A P. Kinetics and thermodynamics of poly(9,9-dioctylfluorene) β-phase formation in dilute solution. Macromolecules, 2006, 39(17): 5854–5864

[16] Morgado J, Mendon a A L, Charas A, Clark J, Lanzani G, Bazzana L, Nocivelli A. Polyfluorene-PMMA copolymers for plastic optical fibers with gain. Proceedings of SPIE, 2008, 6999: 69990M

[17] Bliznyuk V N, Carter S A, Scott J C, Klarner G, Miller R D, Miller D C. Electrical and photoinduced degradation of polyfluorene based films and light-emitting devices. Macromolecules, 1999, 32(2): 361–369

[18] Charas A, Alcácer L, Pimentel A, Conde J P, Morgado J. Observation of field-effect in a cross-linked polyfluorene semiconductor. Chemical Physics Letters, 2008, 455(4–6): 189–191

[19] Charas A, Morgado J, Martinho J M G, Alcácer L, Cacialli F. Tuning the optoelectronic properties of polyfluorenes by copolymerisation with thiophene moieties. Synthetic Metals, 2002, 127(1–3): 251–254

[20] Amarasinghe D, Rusekas A, Vasdekis A E, Turnbull G A, Samuel I D W. High-gain broadband solid-state optical amplifier using a semiconducting copolymer. Advanced Materials, 2009, 21(1): 107–110