Squaraine-Based Optical Sensors: Designer Toolbox for Exploring Ionic and Molecular Recognitions

Ta, Daniel D.; Dzyuba, Sergei V.

doi:10.3390/chemosensors9110302

Cited by 13 publications

(8 citation statements)

References 134 publications

(231 reference statements)

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“…Squaraines belongs to the polymethine dye family where the squaric acid unit is flanked between two aniline or indoline donor units, which possesses a high intense peak in the far-red region with the high molar extinction coefficient (>10 5 M −1 cm −1 ). 25−28 These dyes aggregate in solution as well as in bulk, and such properties have been widely utilized in developing metal-ion sensors 29 and optoelectronic applications. 30,31 Though the aggregation of dyes on TiO 2 surface is considered to be a detrimental process for the device DSSC efficiency, it helps broadening the light harvesting efficiency (LHE), and hence, controlling the aggregation of dyes became a strategy to enhance the photocurrent generation from the aggregated structures.…”

Section: Introductionmentioning

confidence: 99%

“…High efficient DSSC devices with the performances over 14–15.2% − by the cosensitization approach have been achieved under 1 Sun condition, and 37% has been achieved under ambient condition. Squaraines belongs to the polymethine dye family where the squaric acid unit is flanked between two aniline or indoline donor units, which possesses a high intense peak in the far-red region with the high molar extinction coefficient (>10 5 M –1 cm –1 ). − These dyes aggregate in solution as well as in bulk, and such properties have been widely utilized in developing metal-ion sensors and optoelectronic applications. , Though the aggregation of dyes on TiO 2 surface is considered to be a detrimental process for the device DSSC efficiency, it helps broadening the light harvesting efficiency (LHE), and hence, controlling the aggregation of dyes became a strategy to enhance the photocurrent generation from the aggregated structures. , Such types of controlled assembly of dyes on TiO 2 can be achieved by introducing a steric feature in the sensitizer by introducing alkyl groups, which resulted in the generation of photocurrent from aggregated structures, , and the hydrophobic alkyl groups passivate the anode and avoid the charge recombination process which improves the open-circuit potential ( V OC ) of the DSSC device. ,, Such aggregated structures can be modulated by the solvents in both OPV and DSSC research . Furthermore, the electronic properties of squaraine chromophores has been modulated significantly by extending the π-conjugation inside the polymethine framework, whereas only noticeable changes have been observed while extending the conjugation outside the polymethine framework. − Furthermore, fine-tuning in energy levels by introducing the various electron-rich and -deficient substituents known for squaraine chromophores that were utilized for field effect transistor, but such type of systematic study is required for the D–A–D type unsymmetrical squaraine dyes in DSSC.…”

Section: Introductionmentioning

confidence: 99%

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Steric and Electronic Effect in Unsymmetrical Squaraine Dyes for Dye-Sensitized Solar Cells

Nawghare,

Singh,

Maibam

et al. 2023

J. Phys. Chem. C

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Functionalizing the light harvesting sensitizers with additional electron-donating or -withdrawing groups is a potential approach to modulate the photophysical and electrochemical properties which in-turn optimizes the driving force associated with the charge injection and dye-regeneration processes at the dye-TiO 2 / electrolyte interface and the photovoltaic device performance in dyesensitized solar cells (DSSCs). Furthermore, modulated electronic levels of the dyes provide an opportunity to reduce the overpotential associated with the dye-regeneration process and make the dye-TiO 2 interface compatible with various electrolytes. Furthermore, an in-built steric feature by means of introducing linear/branched alkyl groups in the sensitizer is important in controlling the aggregation of dyes on the TiO 2 surface. Hence, to integrate both steric and electronic properties, a series of alkyl group-wrapped unsymmetrical squaraine dyes (SQ-X) with electron-donating and -withdrawing groups have been designed, synthesized, and utilized for DSSC device fabrication. These dyes are functionalized with alkyl groups at both sp 3 -C and N-atoms of the indoline donor moiety at the nonanchoring side to have a similar steric feature. Photophysical and electrochemical studies revealed that the HOMO and LUMO energy levels of the SQ-X series of dyes have been modulated systematically with sufficient driving forces for both charge injection and dye-regeneration processes with iodolyte (I − /I 3 − ) electrolyte. In the presence of electron-donating groups in SQ-X (where X = −NPh 2 and −OMe), the HOMO energy levels are less positive than SQ-H, whereas the presence of electron-withdrawing groups such as −CO 2 Me, − CN, and −NO 2 pushed the HOMO energy levels toward more positive potentials. Enhanced photovoltaic performances have been obtained for the dyes containing electron-donating groups, where the dye with the −NPh 2 group showed a maximum of η 7.03% (V OC 708 mV, J SC 13.16 mA cm −2 , and ff 78%). The dye with the strong electron-withdrawing group −NO 2 showed an efficiency of 1.49% (V OC = 634 mV, J SC = 3.13 mA cm −2 , and ff 75%). As the dyes with the electron-withdrawing group possess deep positive HOMO energy levels, the DSSC device characterization has been investigated with the Cu +/2+ redox shuttle. The reduced device performance of electron-withdrawing-group-containing dyes is due to the unfavored charge distribution in the LUMO compared to the presence of electron-donating-group-containing dyes, and it was supported by the difference in the charge injection efficiency.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Steric and Electronic Effect in Unsymmetrical Squaraine Dyes for Dye-Sensitized Solar Cells

Nawghare,

Singh,

Maibam

et al. 2023

J. Phys. Chem. C

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“…With respect to NIR fluorophores, some of the most noteworthy include heptamethyne cyanine [ 17 ], BODIPYs [ 18 ], squaraine [ 19 , 20 ], dicyanomethylene [ 21 , 22 ] and modified rhodamines [ 23 , 24 ] ( Figure 1 ). Although not regarded as your typical fluorescent unit, synthetic flavylium dyes can be easily modified to include moieties for binding external analytes, thereby allowing for the development of new probes [ 25 , 26 , 27 ].…”

Section: Introductionmentioning

confidence: 99%

A Near InfraRed Emissive Chemosensor for Zn2+ and Phosphate Derivatives Based on a Di-(2-picolyl)amine-styrylflavylium Push-Pull Fluorophore

Gomes

Carrilho

Pereira

et al. 2023

Sensors

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A new Near InfraRed (NIR) fluorescent chemosensor for metal ions and anions is herein presented. The fluorophore is based on a styrylflavylium dye, a synthetic analogue of the natural anthocyanin family, with a di-(2-picolyl)amine (DPA) moiety as the metal chelating unit. The substitution pattern of the styrylflavylium core (with tertiary amines on positions 7 and 4′) shifts the optical properties of the dye towards the NIR region of the electronic spectra, due to a strong push-pull character over the π-conjugated system. The NIR chemosensor is highly sensitive to the presence of Zn2+, which induces a strong CHelation Enhanced Fluorescence (CHEF) effect upon binding to the DPA unit (2.7 fold increase). The strongest competing ion is Cu2+, with a complete fluorescence quenching, while other metals induce lower responses on the optical properties of the chemosensor. Subsequent anion screening of the Zn2+-chemosensor coordination compound has demonstrated a distinct selectivity towards adenosine 5′-triphosphate (ATP) and adenosine 5′-diphosphate (ADP), with high association constants (K ~ 106 M−1) and a strong CHEF effect (2.4 and 2.9 fold fluorescence increase for ATP and ADP, respectively). Intracellular studies with the Zn2+-complexed sensor showed strong luminescence in the cellular membrane of Gram– bacteria (E. coli) and mitochondrial membrane of mammalian cells (A659), which highlights its possible application for intracellular labelling.

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“…This geared the momentum of research for the development of such a class of intensely colored dyes utilizing vastly available electron-donating aromatic rings and squaric acid [ 11 , 12 , 13 , 14 ]. This quest for the design and development of novel squaraine dyes started about six decades ago, which is expected to be continued in future owing to the plethora of technological applications in the area of probes for bioimaging [ 15 , 16 ], semiconducting elements for organic field-effect transistors [ 4 , 5 ], next-generation solar cells such as organic thin film, dye-sensitized and perovskite solar cells [ 17 , 18 ], huge circular dichroism [ 19 ], and fluorescence based electrofluorochromic devices [ 20 , 21 ] along with diverse applications in sensing assisted by molecular self-assembly controlled guest-host interactions [ 22 , 23 , 24 , 25 , 26 ].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Newly Designed and Highly Solvatochromic Double Squaraine Dye for Sensitive and Selective Recognition towards Cu2+

2022

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Synthesis and characterization of a novel and zwitterionic double squaraine dye (DSQ) with a unique D-A-A-D structure is being reported. Contrary to the conventional mono and bis-squaraine dyes with D-A-D and D-A-D-A molecular frameworks reported so far, DSQ dye demonstrated strong solvatochromism allowing for the multiple ion sensing using a single probe by judicious selection of the suitable solvent system. The DSQ dye exhibited a large solvatochromic shift of about 200 nm with color changes from the visible to NIR region with metal ion sensitivity. Utilization of a binary solvent consisted of dimethylformamide and acetonitrile (1:99, v/v), highly selective detection of Cu2+ ions with the linearity range from 50 μM to 1 nM and a detection limit of 6.5 × 10−10 M has been successfully demonstrated. Results of the Benesi–Hildebrand and Jobs plot analysis revealed that DSQ and Cu2+ ions interact in the 2:1 molecular stoichiometry with appreciably good association constant of 2.32 × 104 M−1. Considering the allowed limit of Cu2+ ions intake by human body as recommended by WHO to be 30 μM, the proposed dye can be conveniently used for the simple and naked eye colorimetric monitoring of the drinking water quality.

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Squaraine-Based Optical Sensors: Designer Toolbox for Exploring Ionic and Molecular Recognitions

Cited by 13 publications

References 134 publications

Steric and Electronic Effect in Unsymmetrical Squaraine Dyes for Dye-Sensitized Solar Cells

Steric and Electronic Effect in Unsymmetrical Squaraine Dyes for Dye-Sensitized Solar Cells

A Near InfraRed Emissive Chemosensor for Zn2+ and Phosphate Derivatives Based on a Di-(2-picolyl)amine-styrylflavylium Push-Pull Fluorophore

Synthesis and Characterization of Newly Designed and Highly Solvatochromic Double Squaraine Dye for Sensitive and Selective Recognition towards Cu2+

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