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Chromo- and fluorogenic organometallic sensors

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Chromo- and fluorogenic organometallic sensors. / Fletcher, Nicholas C.; Lagunas, M. Cristina.
Molecular Organometallic Materials for Optics. ed. / Hubert Bozec. 2010. p. 143-170 (Topics in Organometallic Chemistry; Vol. 28).

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter

Harvard

Fletcher, NC & Lagunas, MC 2010, Chromo- and fluorogenic organometallic sensors. in H Bozec (ed.), Molecular Organometallic Materials for Optics. Topics in Organometallic Chemistry, vol. 28, pp. 143-170. https://doi.org/10.1007/978-3-642-01866-4_5

APA

Fletcher, N. C., & Lagunas, M. C. (2010). Chromo- and fluorogenic organometallic sensors. In H. Bozec (Ed.), Molecular Organometallic Materials for Optics (pp. 143-170). (Topics in Organometallic Chemistry; Vol. 28). https://doi.org/10.1007/978-3-642-01866-4_5

Vancouver

Fletcher NC, Lagunas MC. Chromo- and fluorogenic organometallic sensors. In Bozec H, editor, Molecular Organometallic Materials for Optics. 2010. p. 143-170. (Topics in Organometallic Chemistry). doi: 10.1007/978-3-642-01866-4_5

Author

Fletcher, Nicholas C. ; Lagunas, M. Cristina. / Chromo- and fluorogenic organometallic sensors. Molecular Organometallic Materials for Optics. editor / Hubert Bozec. 2010. pp. 143-170 (Topics in Organometallic Chemistry).

Bibtex

@inbook{ccff5b64d9a544dead86b451b0c269aa,
title = "Chromo- and fluorogenic organometallic sensors",
abstract = "Compounds that change their absorption and/or emission properties in the presence of a target ion or molecule have been studied for many years as the basis for optical sensing. Within this group of compounds, a variety of organometallic complexes have been proposed for the detection of a wide range of analytes such as cations (including H+), anions, gases (e.g. O 2, SO2, organic vapours), small organic molecules, and large biomolecules (e.g. proteins, DNA). This chapter focuses on work reported within the last few years in the area of organometallic sensors. Some of the most extensively studied systems incorporate metal moieties with intense long-lived metal-to-ligand charge transfer (MLCT) excited states as the reporter or indicator unit, such as fac-tricarbonyl Re(I) complexes, cyclometallated Ir(III) species, and diimine Ru(II) or Os(II) derivatives. Other commonly used organometallic sensors are based on Pt-alkynyls and ferrocene fragments. To these reporters, an appropriate recognition or analyte-binding unit is usually attached so that a detectable modification on the colour and/or the emission of the complex occurs upon binding of the analyte. Examples of recognition sites include macrocycles for the binding of cations, H-bonding units selective to specific anions, and DNA intercalating fragments. A different approach is used for the detection of some gases or vapours, where the sensor's response is associated with changes in the crystal packing of the complex on absorption of the gas, or to direct coordination of the analyte to the metal centre.",
keywords = "Colorimetry, Fluorescence, Molecular recognition, Molecular sensors, Organometallic, UV-vis spectroscopy",
author = "Fletcher, {Nicholas C.} and Lagunas, {M. Cristina}",
year = "2010",
doi = "10.1007/978-3-642-01866-4_5",
language = "English",
isbn = "9783642018657",
series = "Topics in Organometallic Chemistry",
pages = "143--170",
editor = "Hubert Bozec",
booktitle = "Molecular Organometallic Materials for Optics",

}

RIS

TY - CHAP

T1 - Chromo- and fluorogenic organometallic sensors

AU - Fletcher, Nicholas C.

AU - Lagunas, M. Cristina

PY - 2010

Y1 - 2010

N2 - Compounds that change their absorption and/or emission properties in the presence of a target ion or molecule have been studied for many years as the basis for optical sensing. Within this group of compounds, a variety of organometallic complexes have been proposed for the detection of a wide range of analytes such as cations (including H+), anions, gases (e.g. O 2, SO2, organic vapours), small organic molecules, and large biomolecules (e.g. proteins, DNA). This chapter focuses on work reported within the last few years in the area of organometallic sensors. Some of the most extensively studied systems incorporate metal moieties with intense long-lived metal-to-ligand charge transfer (MLCT) excited states as the reporter or indicator unit, such as fac-tricarbonyl Re(I) complexes, cyclometallated Ir(III) species, and diimine Ru(II) or Os(II) derivatives. Other commonly used organometallic sensors are based on Pt-alkynyls and ferrocene fragments. To these reporters, an appropriate recognition or analyte-binding unit is usually attached so that a detectable modification on the colour and/or the emission of the complex occurs upon binding of the analyte. Examples of recognition sites include macrocycles for the binding of cations, H-bonding units selective to specific anions, and DNA intercalating fragments. A different approach is used for the detection of some gases or vapours, where the sensor's response is associated with changes in the crystal packing of the complex on absorption of the gas, or to direct coordination of the analyte to the metal centre.

AB - Compounds that change their absorption and/or emission properties in the presence of a target ion or molecule have been studied for many years as the basis for optical sensing. Within this group of compounds, a variety of organometallic complexes have been proposed for the detection of a wide range of analytes such as cations (including H+), anions, gases (e.g. O 2, SO2, organic vapours), small organic molecules, and large biomolecules (e.g. proteins, DNA). This chapter focuses on work reported within the last few years in the area of organometallic sensors. Some of the most extensively studied systems incorporate metal moieties with intense long-lived metal-to-ligand charge transfer (MLCT) excited states as the reporter or indicator unit, such as fac-tricarbonyl Re(I) complexes, cyclometallated Ir(III) species, and diimine Ru(II) or Os(II) derivatives. Other commonly used organometallic sensors are based on Pt-alkynyls and ferrocene fragments. To these reporters, an appropriate recognition or analyte-binding unit is usually attached so that a detectable modification on the colour and/or the emission of the complex occurs upon binding of the analyte. Examples of recognition sites include macrocycles for the binding of cations, H-bonding units selective to specific anions, and DNA intercalating fragments. A different approach is used for the detection of some gases or vapours, where the sensor's response is associated with changes in the crystal packing of the complex on absorption of the gas, or to direct coordination of the analyte to the metal centre.

KW - Colorimetry

KW - Fluorescence

KW - Molecular recognition

KW - Molecular sensors

KW - Organometallic

KW - UV-vis spectroscopy

U2 - 10.1007/978-3-642-01866-4_5

DO - 10.1007/978-3-642-01866-4_5

M3 - Chapter

AN - SCOPUS:74549196972

SN - 9783642018657

T3 - Topics in Organometallic Chemistry

SP - 143

EP - 170

BT - Molecular Organometallic Materials for Optics

A2 - Bozec, Hubert

ER -