Petrogenesis and tectonic implications of A-type granites in the Dabie orogenic belt, China: geochronological and geochemical constraints

Diamondoids (nanometer-sized diamond-like hydrocarbons) are a novel class of carbon nanomaterials that exhibit negative electron affinity (NEA) and strong electron-phonon scattering. Surface-bound diamondoid monolayers exhibit monochromatic photoemission, a unique property that makes them ideal electron sources for electron-beam lithography and high-resolution electron microscopy. However, these applications are limited by the stability of the chemical bonding of diamondoids on surfaces. Here we demonstrate the stable covalent attachment of diamantane phosphonic dichloride on tungsten/tungsten oxide surfaces. X-ray photoelectron spectroscopy (XPS) and Fourier-transform infrared (FTIR) spectroscopy revealed that diamondoid-functionalized tungsten oxide films were stable up to 300-350 °C, a substantial improvement over conventional diamondoid thiolate monolayers on gold, which dissociate at 100-200 °C. Extreme ultraviolet (EUV) light stimulated photoemission from these diamondoid phosphonate monolayers exhibited a characteristic monochromatic NEA peak with 0.2 eV full width at half-maximum (fwhm) at room temperature, showing that the unique monochromatization property of diamondoids remained intact after attachment. Our results demonstrate that phosphonic dichloride functionality is a promising approach for forming stable diamondoid monolayers for elevated temperature and high-current applications such as electron emission and coatings in micro/nano electromechanical systems (MEMS/NEMS).

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Defying Stereotypes with Nanodiamonds: Stable Primary Diamondoid Phosphines

Moncea

Gunawan

Poinsot

et al. 2016

J. Org. Chem.

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Direct unequal C-H bond difunctionalization of phosphorylated diamantane was achieved in high yield from the corresponding phosphonates. Reduction of the functionalized phosphonates provides access to novel primary and secondary alkyl/aryl diamantane phosphines. The prepared primary diamantyl phosphines are quite air stable compared to their adamantyl and especially alkyl or aryl analogues. This finding is corroborated by comparing the singly occupied molecular orbital energy levels of the corresponding phosphine radical cations obtained by density functional theory computations.

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Synthesis of the Antimalarial Drug FR900098 Utilizing the Nitroso-Ene Reaction

et al. 2007

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Selective Preparation of Diamondoid Phosphonates

Fokin

Yurchenko

Tkachenko³

et al. 2014

J. Org. Chem.

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Anticorrosive properties of N-acetylmethylpyridinium bromides

et al. 2006

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Corrosion-Protective Properties of N-Phenacylmethylpyridinium Bromides

Yurchenko

Pogrebova

Pilipenko

et al. 2003

Russian Journal of Applied Chemistry

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ChemInform Abstract: PHOSPHORYLATED ADAMANTANES. I. PHOSPHORYLATION OF 1‐ AND 2‐HYDROXYADAMANTANE BY PHOSPHORUS(III) ACID CHLORIDES

Yurchenko¹,

Klepa²,

Mishak³

et al. 1981

Chemischer Informationsdienst

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ChemInform Abstract: SYNTHESES BASED ON (P‐FORMYLPHENYL)DIPHENYLPHOSPHINE

Zhmurova¹,

Yurchenko²,

Yurchenko³

et al. 1978

Chemischer Informationsdienst

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R. I. Yurchenko

Covalent Attachment of Diamondoid Phosphonic Acid Dichlorides to Tungsten Oxide Surfaces

Defying Stereotypes with Nanodiamonds: Stable Primary Diamondoid Phosphines

Synthesis of the Antimalarial Drug FR900098 Utilizing the Nitroso-Ene Reaction

Selective Preparation of Diamondoid Phosphonates

Anticorrosive properties of N-acetylmethylpyridinium bromides

Corrosion-Protective Properties of N-Phenacylmethylpyridinium Bromides

ChemInform Abstract: PHOSPHORYLATED ADAMANTANES. I. PHOSPHORYLATION OF 1‐ AND 2‐HYDROXYADAMANTANE BY PHOSPHORUS(III) ACID CHLORIDES

ChemInform Abstract: SYNTHESES BASED ON (P‐FORMYLPHENYL)DIPHENYLPHOSPHINE

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