Eunyeong Lee scite author profile

A lithography‐free but nanogap‐based chemical sensing method utilizes crack formation in a Pd or PdNi thin film generated by stretching the thin film on an elastomeric substrate. This low‐cost, scalable method that uses a highly mobile thin film on an elastomer (MOTIFE) provides reliable, repeatable, and highly sensitive H2 sensors, as shown by W. Lee and co‐workers in their Communication on

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Titelbild: Highly Mobile Palladium Thin Films on an Elastomeric Substrate: Nanogap‐Based Hydrogen Gas Sensors (Angew. Chem. 23/2011)

Lee

Shim

Lee

et al. 2011

Angewandte Chemie

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Eine lithographiefreie nanolückenbasierte Chemosensormethode nutzt die Bildung von Brüchen in einem dünnen Pd‐ oder PdNi‐Film, die durch Strecken des Films auf einem Elastomersubstrat erzeugt wurden. Diese preiswerte, skalierbare Methode, die auf einem hoch mobilen dünnen Film auf einem Elastomer (MOTIFE) beruht, liefert zuverlässige und hoch empfindliche H2‐Sensoren, wie W. Lee et al. in der Zuschrift auf zeigen.

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Eunyeong Lee

Highly Mobile Palladium Thin Films on an Elastomeric Substrate: Nanogap‐Based Hydrogen Gas Sensors

Pd–Ni hydrogen sponge for highly sensitive nanogap-based hydrogen sensors

Highly Mobile Palladium Thin Films on an Elastomeric Substrate: Nanogap‐Based Hydrogen Gas Sensors

Cover Picture: Highly Mobile Palladium Thin Films on an Elastomeric Substrate: Nanogap‐Based Hydrogen Gas Sensors (Angew. Chem. Int. Ed. 23/2011)

Titelbild: Highly Mobile Palladium Thin Films on an Elastomeric Substrate: Nanogap‐Based Hydrogen Gas Sensors (Angew. Chem. 23/2011)

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