In this study, asymmetric zinc phthalocyanine compounds with Donor-π-Anchor (D-π-A) property that enable the movement of electrons in molecular structure in one direction were synthesized. Phthalocyanines were designed to ensure electron mobility within the molecule and to facilitate the transfer of electrons to the TiO2 layer. The synthesized asymmetric zinc phthalocyanines (ZnPc-1 and ZnPc-2) are molecules with three donor biphenyls and one anchor aldehyde group and three acceptor/anchor cyano and one anchor aldehyde group, respectively. The effect of biphenyl and cyano groups on cell efficiency with aldehyde anchor group was investigated. The structure of the synthesized phthalocyanines was characterized by Fourier Transform Infrared Spectrometry (FTIR), Mass Spectrometry (MS), UV-vis, Fluorescence spectroscopy. The experimentally calculated optical band gap values were supported by the values found by Density Functional Theory (DFT) calculations. dye sensitive solar cells were measured and the efficiencies were evaluated with reference to the N719 standard dye. In the solar cell measurements of the designed phthalocyanines, the structure containing the cyano group has been given a higher photovoltaic cell thanks to the higher short circuit photo-current (Jsc). In this way, the highest power conversion efficiency value was achieved among the cyano group molecules.
In this report, it was aimed to the improve thermal stability of polyethylene terephthalate (PET) by adding huntite/hydromagnesite minerale. PET/huntite/hydromagnesite composites were prepared by adding various proportions of huntite/hydromagnesite to PET. The chemical structures of the composites were characterized by Fourier transform infrared spectroscopy (FTIR) and X-ray diffraction (XRD) analysis. Thermal properties of the composites were determined by thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). Glass-transition temperatures and char yields increased with the increase of the huntite/ hydromagnesite content in the composites. The surface morphologies of the composites were investigated by a scanning electron microscopy. The obtained results proved that the composite system is more thermally stable than the pure PET itself. POLYM.
In order to obtain higher power conversion performance in dye-sensitized solar cells, phthalocyanine compounds (ZnPc-1 and ZnPc-2) containing electron donor methoxy groups and aldehyde groups as anchors were synthesized in this study. The photovoltaic and electrochemical properties of these compounds were studied and their applicability as photosensitizers in DSSCs was investigated. The photovoltaic cell efficiencies (PCE) of the devices were in the range of 0.43–0.76 % under simulated AM 1.5 solar irradiation of 100 mW/cm2. Considering the photovoltaic performance of the produced DSSC devices, the anchor group and the chelate effect, it was observed that the efficiency increased, respectively, ZnPc-1 < ZnPc-2. The highest PCE value of 0.76 % was obtained with asymmetric ZnPc-2 based DSSC under. It has been explained that methoxy groups are electron donors and contribute to intramolecular electron mobility and that better electron transfer with single aldehyde anchor increases cell efficiency. In addition, the increase in the number of methoxy groups with known donor properties on the molecule also contributed to the increase in cell efficiency by increasing electron transfer. All compounds synthesized were characterized using FTIR, UV-vis and MS spectroscopic data.
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