Chien‐Tien Chen scite author profile

Co-sensitization of two or more dyes with complementary absorption spectra on a semiconductor film is an effective approach to enhance the performance of a dye-sensitized solar cell (DSSC). Porphyrin sensitizer YD2-oC8 showed outstanding photovoltaic performance co-sensitized with an organic dye to cover the entire visible spectral region, 400–700 nm. To promote the light-harvesting capability beyond 700 nm, a porphyrin dimer (YDD6) was synthesized for a co-sensitized system. We report a systematic approach for engineering of molecular co-sensitization of TiO2 films in a cocktail solution containing YD2-oC8, an organic dye (CD4) and YDD6 in a specific molar ratio to optimize the photovoltaic performance of the device. The resulting device showed panchromatic spectral features in the IPCE action spectrum in the region 400–700 nm attaining efficiencies of 75–80%; the spectrum is extended to the near-IR region attaining 40–45% in 700–800 nm region, giving JSC/mA cm 2 ¼ 19.28, VOC/mV ¼ 753, FF ¼ 0.719, and h ¼ 10.4% under standard AM 1.5 G one-sun irradiation. This performance is superior to what is obtained from the individual single-dye devices and the two-dye co-sensitized systems. The shifts of TiO2 potential upon dye uptake and the kinetics of charge recombination were examined through measurements of the charge extraction (CE) and intensity-modulated photovoltage spectroscopy (IMVS), respectively. Five co-sensitized systems were investigated to demonstrate that suppression of dye aggregation of YDD6 in the co-sensitized film is a key factor to further improve the device performance

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Galactose Encapsulated Multifunctional Nanoparticle for HepG2 Cell Internalization

Lai

Lin

et al. 2010

Adv Funct Materials

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The fluorescent dye Cy3 and galactose derivatives are covalently assembled with different ratios on the surfaces of magnetic nanoparticles (MNPs) to produce multifunctional HepG2 cancer cell–targeting agents and the effect of ligand spatial orientation on the MNP surface is investigated on targeting specificity. By using a mixture of bis‐N‐hydroxysuccinimide ester (a bifunctional linker) and OSu‐activated Cy3 (w/w = 30:1), stable and quantifiable fluorescent MNPs (Cy3@MNPs) are synthesized that could be subsequently loaded with galactosyl ligands. A mono‐antennary and two different tri‐antennary galactosyl ligands are individually immobilized on Cy3@MNPs, and the uptake efficiencies of the resulting galactosyl Cy3@MNPs by HepG2 and HeLa cells are investigated using confocal microscopy. The confocal images show that galactosyl Cy3@MNPs are sprayed over cytoplasm of the HepG2 cells, indicating that the MNP uptake occurs via receptor‐mediated endocytosis that is followed by release from endosomes. The results also reveal that the ligand spatial orientation affects the efficiency of the receptor‐mediated endocytosis and one of the tri‐antennary galactosyl ligands shows the best uptake efficiency owing to the optimal spatial presentation of the galactosyl moieties. Overall, it is shown that the MNP is a good ligand carrier and that, when pre‐assembled, the multivalent ligand structure enhances the interactions between the surface ligands of the MNPs and receptors of HepG2 cells. Additionally, the galactosyl Cy3@MNPs are not cytotoxic, indicating that they may potentially be used for in vivo applications.

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Doubly Ortho-Linked Quinoxaline/Diphenylfluorene Hybrids as Bipolar, Fluorescent Chameleons for Optoelectronic Applications

et al. 2006

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Doubly Ortho-Linked cis-4,4‘-Bis(diarylamino)stilbene/Fluorene Hybrids as Efficient Nondoped, Sky-Blue Fluorescent Materials for Optoelectronic Applications

Wei

Chen

2007

J. Am. Chem. Soc.

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Chien‐Tien Chen

Molecular engineering of cocktail co-sensitization for efficient panchromatic porphyrin-sensitized solar cells

Galactose Encapsulated Multifunctional Nanoparticle for HepG2 Cell Internalization

Doubly Ortho-Linked Quinoxaline/Diphenylfluorene Hybrids as Bipolar, Fluorescent Chameleons for Optoelectronic Applications

Doubly Ortho-Linked cis-4,4‘-Bis(diarylamino)stilbene/Fluorene Hybrids as Efficient Nondoped, Sky-Blue Fluorescent Materials for Optoelectronic Applications

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