Chemical analysis has been improved by the advent of sensory devices based on chemosensors that are able to transform chemical information (composition, concentration, etc.) into an analytically useful signal. These devices, in fact, find applications in many different areas of great social and economic impact. Among all the possible chemosensors, we focus here our attention on luminescent ones as they present many advantages such as sensitiveness, low cost, ease of use and versatility. After a discussion on their pros and cons and of the most important features in the design of new species with customized properties, we present selected examples of different chemosensors that take advantage from various transduction mechanisms always following a supramolecular approach. A step forward in the research and application has been done implementing these structures in nanosized materials to obtain powerful and versatile platforms for addressing crucial issues in sensing, imaging, and molecular testing. In this context we have chosen to restrict the discussion on luminescent multichromophoric silica-based nanoprobes as a virtuous example of how a high design versatility allows the preparation of nanostructures where modulation and multifunctionality offer the possibility to induce collective energy- and electron-transfer processes, that are at the base of signal amplification effects.

Nelsi, Z., Francesco, P., Enrico, R. (2016). Luminescent Chemosensors: from molecules to nanostructures. CH-6330 Cham (ZG) : Springer International Publishing [10.1007/978-3-319-31671-0_12].

Luminescent Chemosensors: from molecules to nanostructures

ZACCHERONI, NELSI;PALOMBA, FRANCESCO;RAMPAZZO, ENRICO
2016

Abstract

Chemical analysis has been improved by the advent of sensory devices based on chemosensors that are able to transform chemical information (composition, concentration, etc.) into an analytically useful signal. These devices, in fact, find applications in many different areas of great social and economic impact. Among all the possible chemosensors, we focus here our attention on luminescent ones as they present many advantages such as sensitiveness, low cost, ease of use and versatility. After a discussion on their pros and cons and of the most important features in the design of new species with customized properties, we present selected examples of different chemosensors that take advantage from various transduction mechanisms always following a supramolecular approach. A step forward in the research and application has been done implementing these structures in nanosized materials to obtain powerful and versatile platforms for addressing crucial issues in sensing, imaging, and molecular testing. In this context we have chosen to restrict the discussion on luminescent multichromophoric silica-based nanoprobes as a virtuous example of how a high design versatility allows the preparation of nanostructures where modulation and multifunctionality offer the possibility to induce collective energy- and electron-transfer processes, that are at the base of signal amplification effects.
2016
Applied Photochemistry (When light meets molecules)
479
497
Nelsi, Z., Francesco, P., Enrico, R. (2016). Luminescent Chemosensors: from molecules to nanostructures. CH-6330 Cham (ZG) : Springer International Publishing [10.1007/978-3-319-31671-0_12].
Nelsi, Zaccheroni; Francesco, Palomba; Enrico, Rampazzo
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/589094
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