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. 2019 Jul 15;58(29):9933-9938.
doi: 10.1002/anie.201903089. Epub 2019 Jun 11.

Diamondoid Nanostructures as sp3 -Carbon-Based Gas Sensors

Oana Moncea  1   2   3 Juan Casanova-Chafer  4 Didier Poinsot  1 Lukas Ochmann  2   3 Clève D Mboyi  1 Houssein O Nasrallah  1 Eduard Llobet  4 Imen Makni  1 Molka El Atrous  1 Stéphane Brandès  1 Yoann Rousselin  1 Bruno Domenichini  5 Nicolas Nuns  6 Andrey A Fokin  2   3   7 Peter R Schreiner  2   3 Jean-Cyrille Hierso  1   8
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Diamondoid Nanostructures as sp3 -Carbon-Based Gas Sensors

Oana Moncea et al. Angew Chem Int Ed Engl. .

Abstract

Diamondoids, sp3 -hybridized nanometer-sized diamond-like hydrocarbons (nanodiamonds), difunctionalized with hydroxy and primary phosphine oxide groups, enable the assembly of the first sp3 -C-based chemical sensors by vapor deposition. Both pristine nanodiamonds and palladium nanolayered composites can be used to detect toxic NO2 and NH3 gases. This carbon-based gas sensor technology allows reversible NO2 detection down to 50 ppb and NH3 detection at 25-100 ppm concentration with fast response and recovery processes at 100 °C. Reversible gas adsorption and detection is compatible with 50 % humidity conditions. Semiconducting p-type sensing properties are achieved from devices based on primary phosphine-diamantanol, in which high specific area (ca. 140 m2 g-1 ) and channel nanoporosity derive from H-bonding.

Keywords: gas sensing; hybrid materials; nanodiamonds; palladium; phosphine.

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