Two dimensional fluorescent sensors: the different dependences of the fluorescence band position and the fluorescence quantum yield of 1,5-diphenyl-3-vinyl-Δ<sup>2</sup>-pyrazoline upon solvent dipolarity and hydrogen bond acidity

Costa, Merinnage Dayal Premakumara de; Silva, Amilra Prasanna de; Pathirana, Suram

doi:10.1139/v87-239

Cited by 47 publications

(1 citation statement)

References 14 publications

(15 reference statements)

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“…The second challenge is addressed with fluorophores which achieve charge-separated excited states [12,53] so that their interaction with the local dipoles of the neighbourhood causes shifts in the emission spectra. Simultaneous monitoring of wavelength and intensity data to obtain position and H + concentration information respectively, is another example of two-dimensional fluorescence sensing [54]. Maps of local H + concentration versus position show the rapid fall-off of proton levels as non-polar membrane surfaces are approached [51].…”

Section: Reviewmentioning

confidence: 99%

Bright molecules for sensing, computing and imaging: a tale of two once-troubled cities

Silva¹

2015

Beilstein J. Org. Chem.

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SummaryThe circumstances in Colombo, Sri Lanka, and in Belfast, Northern Ireland, which led to a) the generalization of luminescent PET (photoinduced electron transfer) sensing/switching as a design tool, b) the construction of a market-leading blood electrolyte analyzer and c) the invention of molecular logic-based computation as an experimental field, are delineated. Efforts to extend the philosophy of these approaches into issues of small object identification, nanometric mapping, animal visual perception and visual art are also outlined.

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Section: Reviewmentioning

confidence: 99%

Bright molecules for sensing, computing and imaging: a tale of two once-troubled cities

Silva¹

2015

Beilstein J. Org. Chem.

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Fluorescence in Organized Assemblies

Hinze¹

2000

Encyclopedia of Analytical Chemistry

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This article provides an overview of the general properties of organized assembly (ordered media) systems such as aqueous surfactant and bile salt micelles, lipid and surfactant vesicles (liposomes) and cyclodextrins (CDs) and summarizes their utilization to enhance the performance of analytical fluorescence measurements. In many instances, organic molecules and metal complex species, when included within a CD cavity or solubilized and bound to surfactant aggregates, exhibit enhanced fluorescence. This gives rise to improved detectability of such analytes. The altered microenvironment within the organized medium is capable of impeding the interfering action of other species (inorganic or organic) present in the sample matrix. This often can improve the selectivity of the analytical method. These benefits of improved sensitivity and selectivity arise from the compartmentalization, isolation and shielding of the excited singlet state of the guest analyte from quenching and nonradiative decay processes as well as prevent side reactions that otherwise can occur in bulk solution (or sample matrix). In addition, organic solvents or time‐consuming extraction steps can be avoided owing to the increased solubility of the nonpolar organic or inorganic reagents and/or analyte molecules in water in the presence of the organized medium; allowing for the use of an aqueous medium to perform the procedure. The possibility of conducting reactions and forming fluorescent organic or metal chelates in micellar (or other organized) media that are not observed in a bulk homogeneous solvent system serves to expand the scope of chemistries that one can consider using to design/develop new, unique and improved fluorescent assays. Numerous representative examples of fluorescent methods for determination of both organic and inorganic analytes are provided which serve to illustrate the advantages and benefits accrued from the use of the micelles, vesicles, liposomes or CDs in such procedures. Some experimental considerations and cautions to keep in mind when utilizing organized media are also delineated. An extensive reference section is provided so that the interested reader can easily refer to such for more detailed information on these systems and topics.

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Fluorescence in Organized Assemblies

Memon¹,

Balouch²,

Hinze³

2008

Encyclopedia of Analytical Chemistry

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This article provides an overview of the general properties of organized assembly (ordered media) systems, such as aqueous surfactant and bile salt micelles, lipid (liposomes) and surfactant vesicles, and cyclodextrins (CDs), and summarizes their utilization to enhance the performance of analytical fluorescence measurements. In many instances, organic molecules and metal complex species when included within a CD cavity or solubilized and bound to surfactant aggregates exhibit enhanced fluorescence, improving detectability of such analytes. The altered microenvironment within the organized medium can impede the interfering action of other species (inorganic or organic) present in the sample matrix, which often improves the selectivity of the analytical method. These benefits of improved sensitivity and selectivity arise from the compartmentalization, isolation, and shielding of the excited singlet state of the guest analyte from quenching and nonradiative decay processes, as well as preventing side reactions that otherwise can occur in bulk solution (or sample matrix). Organic solvents or time‐consuming extraction steps can also be avoided, owing to the increased solubility of nonpolar organic or inorganic reagents and/or analyte molecules in water in the presence of the organized medium, allowing the use of an aqueous medium to perform the procedure. The possibility of conducting reactions and forming fluorescent organic or metal chelates in micellar (or other organized) media that are not observed in a bulk homogeneous solvent system serves to expand the scope of possible chemistries for design/development of new, unique, and improved fluorescent assays. Examples of fluorescent methods for determination of both organic and inorganic analytes are provided, which serve to illustrate the advantages and benefits accrued from the use of the micelles, vesicles, liposomes, or CDs in such procedures, along with experimental considerations and cautions in utilizing organized media.

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Two dimensional fluorescent sensors: the different dependences of the fluorescence band position and the fluorescence quantum yield of 1,5-diphenyl-3-vinyl-Δ²-pyrazoline upon solvent dipolarity and hydrogen bond acidity

Cited by 47 publications

References 14 publications

Bright molecules for sensing, computing and imaging: a tale of two once-troubled cities

Bright molecules for sensing, computing and imaging: a tale of two once-troubled cities

Fluorescence in Organized Assemblies

Fluorescence in Organized Assemblies

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Two dimensional fluorescent sensors: the different dependences of the fluorescence band position and the fluorescence quantum yield of 1,5-diphenyl-3-vinyl-Δ2-pyrazoline upon solvent dipolarity and hydrogen bond acidity

Cited by 47 publications

References 14 publications

Bright molecules for sensing, computing and imaging: a tale of two once-troubled cities

Bright molecules for sensing, computing and imaging: a tale of two once-troubled cities

Fluorescence in Organized Assemblies

Fluorescence in Organized Assemblies

Contact Info

Product

Resources

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Two dimensional fluorescent sensors: the different dependences of the fluorescence band position and the fluorescence quantum yield of 1,5-diphenyl-3-vinyl-Δ²-pyrazoline upon solvent dipolarity and hydrogen bond acidity