A simple approach to sensor discovery and fabrication on self-assembled monolayers on glass

Lourdes Basabe-Desmonts; Joris Beld; Rebecca S. Zimmerman; Jordi Hernando; Petra Mela; María F. García Parajó; Niek F. Van Hulst; Albert Van Den Berg; David N. Reinhoudt; Mercedes Crego-Calama

doi:10.1021/ja049901o

A simple approach to sensor discovery and fabrication on self-assembled monolayers on glass

Lourdes Basabe-Desmonts, Joris Beld, Rebecca S. Zimmerman, Jordi Hernando, Petra Mela, María F. García Parajó, Niek F. Van Hulst, Albert Van Den Berg, David N. Reinhoudt, Mercedes Crego-Calama

Research output: Contribution to journal › Article › peer-review

154 Scopus citations

Abstract

Self-assembled monolayers (SAMs) on glass were used as a platform to sequentially deposit fluorophores and small molecules for ion sensing. The preorganization provided by the surface avoids the need for complex receptor design, allowing for a combinatorial approach to sensing systems based on small molecules. The resulting libraries are easily measured and show varied responses to a series of both cations and anions. This technology is transferable from the macro- to the microscale both via microcontact printing (μCP), where the fluorophore is printed onto a glass surface, and via direct attachment of the fluorophore to microchannel walls. The ease of miniaturization of this technology may make the generation of a wide variety of simple yet efficient microarrays possible.

Original language	English
Pages (from-to)	7293-7299
Number of pages	7
Journal	Journal of the American Chemical Society
Volume	126
Issue number	23
DOIs	https://doi.org/10.1021/ja049901o
State	Published - 16 Jun 2004
Externally published	Yes

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abstract = "Self-assembled monolayers (SAMs) on glass were used as a platform to sequentially deposit fluorophores and small molecules for ion sensing. The preorganization provided by the surface avoids the need for complex receptor design, allowing for a combinatorial approach to sensing systems based on small molecules. The resulting libraries are easily measured and show varied responses to a series of both cations and anions. This technology is transferable from the macro- to the microscale both via microcontact printing (μCP), where the fluorophore is printed onto a glass surface, and via direct attachment of the fluorophore to microchannel walls. The ease of miniaturization of this technology may make the generation of a wide variety of simple yet efficient microarrays possible.",

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AU - Basabe-Desmonts, Lourdes

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AU - Zimmerman, Rebecca S.

AU - Hernando, Jordi

AU - Mela, Petra

AU - García Parajó, María F.

AU - Van Hulst, Niek F.

AU - Van Den Berg, Albert

AU - Reinhoudt, David N.

AU - Crego-Calama, Mercedes

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AB - Self-assembled monolayers (SAMs) on glass were used as a platform to sequentially deposit fluorophores and small molecules for ion sensing. The preorganization provided by the surface avoids the need for complex receptor design, allowing for a combinatorial approach to sensing systems based on small molecules. The resulting libraries are easily measured and show varied responses to a series of both cations and anions. This technology is transferable from the macro- to the microscale both via microcontact printing (μCP), where the fluorophore is printed onto a glass surface, and via direct attachment of the fluorophore to microchannel walls. The ease of miniaturization of this technology may make the generation of a wide variety of simple yet efficient microarrays possible.

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A simple approach to sensor discovery and fabrication on self-assembled monolayers on glass

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