Carminic acid extracted from cochineal insect as photosensitizer for dye‐sensitized solar cells

Abstract: In an attempt to investigate influence of the utilization of organic dyes on photovoltaic performance of low-cost dye-sensitized solar cells (DSSCs), carminic acid (CA) obtained from cochineal insect was employed as photosensitizer to fabricate DSSCs. To recognize light absorption behavior of the CA, UV-Vis spectroscopy was taken. The CA comprises noticeable spectrum of solar radiation, 430 to 540 nm that makes it appropriate for use as a photosensitizer in DSSCs. Fourier transform infrared (FTIR) spectra of t… Show more

“…The obtained values of I SC , V OC , FF, and η compared to other DSSCs employing organic sensitizers [4][5][6][7][48][49][50][51][52][53]. The value of J SC for the cell sensitized with the wood apple leaves dye becomes better than DSSCs employing TiO 2 (18NR-T) sensitized by chlorophylls dye extracted from natural plants (spinach, grass jelly leaves, and broccoli) [49], DSSC employing PEDOT: PSS/PEG sensitized by anthocyanin extracted dye from banana flowers [51], and DSSCs employing TiO 2 sensitized by chlorophyll and anthocyanin extracted dyes from natural jatropha leaves and purple chrysanthemum, respectively [53].…”

“…However, the values of V OC and FF in this study are far from satisfactory, which causes lower efficiency. The V OC is associated with the difference between the energy level of the TiO 2 conduction band and the redox potential of the electrolyte, and charge recombination occurs at the interface of photoanode/electrolyte [4]. Therefore, they should also be considered to comprehend such a low value of V OC .…”

“…To investigate the influence of the utilization of organic dyes on the photovoltaic performance of low-cost DSSCs, carminic acid (CA) obtained from cochineal insect was employed as a photosensitizer and achieved 1.0% efficiency in preparing the film by spin coating of TiO 2 paste from P25 with pre-and post-treatment using titanium tetra isopropoxide [4]. The CA, papaya peel, and microalga Scenedesmus obliquus extract were tested as sensitizers and achieved efficiency of 0.228%, 0.093%, and 0.064%, respectively.…”

Performance of dye-sensitized solar cells extracted dye from wood apple leaves

“…The obtained values of I SC , V OC , FF, and η compared to other DSSCs employing organic sensitizers [4][5][6][7][48][49][50][51][52][53]. The value of J SC for the cell sensitized with the wood apple leaves dye becomes better than DSSCs employing TiO 2 (18NR-T) sensitized by chlorophylls dye extracted from natural plants (spinach, grass jelly leaves, and broccoli) [49], DSSC employing PEDOT: PSS/PEG sensitized by anthocyanin extracted dye from banana flowers [51], and DSSCs employing TiO 2 sensitized by chlorophyll and anthocyanin extracted dyes from natural jatropha leaves and purple chrysanthemum, respectively [53].…”

“…However, the values of V OC and FF in this study are far from satisfactory, which causes lower efficiency. The V OC is associated with the difference between the energy level of the TiO 2 conduction band and the redox potential of the electrolyte, and charge recombination occurs at the interface of photoanode/electrolyte [4]. Therefore, they should also be considered to comprehend such a low value of V OC .…”

“…To investigate the influence of the utilization of organic dyes on the photovoltaic performance of low-cost DSSCs, carminic acid (CA) obtained from cochineal insect was employed as a photosensitizer and achieved 1.0% efficiency in preparing the film by spin coating of TiO 2 paste from P25 with pre-and post-treatment using titanium tetra isopropoxide [4]. The CA, papaya peel, and microalga Scenedesmus obliquus extract were tested as sensitizers and achieved efficiency of 0.228%, 0.093%, and 0.064%, respectively.…”

Performance of dye-sensitized solar cells extracted dye from wood apple leaves

“…[ 72 ] A relatively higher value of HOMO level of the present dye guarantees a larger value of driving force for dye generation. [ 68–71 ] Even though the difference between LUMO level and E c of TiO 2 is appreciable for the dye, J sc value stays behind that of other dyes. [ 68–71 ] This might be attributed to weak light absorption ability of the dye.…”

A Joint Theoretical and Experimental Study on a Tetrazole‐Anchored BODIPY‐Based Dye at the Surface of TiO₂ for Dye‐Sensitized Solar Cell Applications

“…To gain more insights into the interactions between DCar and Al(III) responsible for the strengthening effect achieved, a complex between DCar and Al(III) (DCar-AL) was prepared and characterized. The FTIR spectra shown in Figure 6a illustrate that the absorption peaks at 3425 cm −1 (−OH stretching) and 1760 cm −1 (C�O stretching) for DCar slightly shifted to 3426 and 1762 cm −1 , respectively, after coordinating with Al(III), 41 and the absorption peak at 1220 cm −1 (anthraquinone −OH in-plane bending) shifted to 1149 cm −1 in the meantime. 34 The XPS spectra shown in Figure 6c,d Physical Properties of Crust Leather.…”

Providing Natural Organic Pigments with Excellent Tanning Capabilities: A Novel “One-Pot” Tanning–Dyeing Integration Strategy for Sustainable Leather Manufacturing