Rational Design, Synthesis, and Optical Properties of Film-Forming, Near-Infrared Absorbing, and Fluorescent Chiromophores with Multidonors and Large Heterocyclic Acceptors
Data(s) |
2009
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Resumo |
A new series of film-forming, low-bandgap chromophores (1a,b and 2a,b) were rationally designed with aid of a computational study., and then synthesized and characterized. To realize absorption and emission above the 1000 nm wavelength, the molecular design focuses on lowering the LUMO level by fusing common heterocyclic units into a large conjugated core that acts an electron acceptor and increasing the charge transfer by attaching the multiple electron-donating groups at the appropriate positions of the acceptor core. The chromophores have bandgap levels of 1.27-0.71 eV, and accordingly absorb at 746-1003 nm and emit at 1035-1290 nm in solution. By design, the relatively high molecular weight (up to 2400 g mol(-1)) and non-coplanar structure allow these near-infrared (NIR) chromophores to be readily spin-coated as uniform thin films and doped with other organic semiconductors for potential device applications. Doping with [6,6]-phenyl-C-61 butyric acid methyl ester leads to a red shift in the absorption on]), for la and 2a. An interesting NIR electrochromism was found for 2a, with absorption being turned on at 1034 nm when electrochemically switched (at 1000 mV) from its neutral state to a radical cation state. Furthermore, a large Stokes shift (256-318 nm) is also unique for this multidonor-acceptor type of chromophore. |
Identificador | |
Idioma(s) |
英语 |
Fonte |
Luo M;Shadnia H;Qian G;Du XB;Yu DB;Ma DG;Wright JS;Wang ZY.Rational Design, Synthesis, and Optical Properties of Film-Forming, Near-Infrared Absorbing, and Fluorescent Chiromophores with Multidonors and Large Heterocyclic Acceptors,CHEMISTRY-A EUROPEAN JOURNAL ,2009,15(35):8902-8908 |
Palavras-Chave | #CHARGE-CARRIER MOBILITY #LIGHT-EMITTING-DIODES #POLYMER SOLAR-CELLS #BAND-GAP POLYMER #POLYFLUORENE COPOLYMER #DISCOTIC MESOGENS #LIQUID-CRYSTAL #AROMATIC CORE #EFFICIENT #HEXAAZATRIPHENYLENE |
Tipo |
期刊论文 |