Harvesting solar energy using conjugated metallopolyyne donors containing electron-rich phenothiazine–oligothiophene moieties

Wong, Wai Yeung; Chow, Wing Cheong; Cheung, Kmc; Fung, Man-Lung; Djurišić, Aleksandra B.; Chan, Wai Kin

doi:10.1016/j.jorganchem.2009.02.006

Cited by 55 publications

(31 citation statements)

References 107 publications

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“…The 146-doped devices achieved a bright green-yellowish emission, with a maximum luminance of 23 000 cd m À2 , a turn-on voltage of 4 V, and a high current efficiency of 31 cd A À1 . To evaluate potential application in solution-processed devices, the same group further prepared a range of Pt(II) complexes (159)(160)(161)(162)(163)(164)(165)(166)(167)(168)(169)(170)(171)(172)(173)(174)(175)(176)(177) bearing tridentate ligands with fluorene oligomers. 66 The utilization of oligomeric organic ligands coordinated to the metal ions offers the prospect of low-cost, solution-processable optoelectronic devices as the fluorene moieties increase the solubility of the complexes in common solvents.…”

Section: 222mentioning

confidence: 99%

Recent progress in metal–organic complexes for optoelectronic applications

et al. 2014

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The design and characterization of metal-organic complexes for optoelectronic applications is an active area of research. The metal-organic complex offers unique optical and electronic properties arising from the interplay between the inorganic metal and the organic ligand. The ability to modify chemical structure through control over metal-ligand interaction on a molecular level could directly impact the properties of the complex. When deposited in thin film form, this class of materials enable the fabrication of a wide variety of low-cost electronic and optoelectronic devices. These include light emitting diodes, solar cells, photodetectors, field-effect transistors as well as chemical and biological sensors. Here we present an overview of recent development in metal-organic complexes with controlled molecular structures and tunable properties. Advances in extending the control of molecular structures to solid materials for energy conversion and information technology applications will be highlighted.

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Section: 222mentioning

confidence: 99%

Recent progress in metal–organic complexes for optoelectronic applications

et al. 2014

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“…Conducting or semiconducting dye polymer thin films have important technological applications especially in batteries and electrodes [1], organic photovoltaics [2], light emitting diodes [3], and biosensor systems [4,5]. These applications can be developed by improving the surface properties of dye polymer thin films.…”

Section: Introductionmentioning

confidence: 99%

Chronoamperometric and morphological investigation of nucleation and growth mechanism of poly(azure A) thin films

Kalyoncu

Alanyalıoğlu

2011

Journal of Electroanalytical Chemistry

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“…The ground state intra-molecular charge transfer and excited state photo-induced electron transfer properties of phenothiazine [32,33] make them serve as electro active and photoactive materials in molecular electronics. Hence they are widely used in industry as organic light emitting diodes [34,35], efficient non-linear optical materials [36], acid-base dyes and pigments [37], semiconductors [31], chemical sensors [38] and solar cells [39]. The structure and interacting mechanism of biologically active molecules can be explored using infrared and Raman spectroscopy [40].…”

Section: Introductionmentioning

confidence: 99%