Pierre Louette scite author profile

An experimental study on the interaction between the top and bottom layer of a chemically functionalized graphene bilayer by mild oxygen plasma is reported. Structural, chemical, and electrical properties are monitored using Raman spectroscopy, transport measurements, conductive atomic force microscopy and X-ray photoelectron spectroscopy. Single- and double-sided chemical functionalization are found to give very different results: single-sided modified bilayers show relatively high mobility (200-600 cm(2) V(-1) s(-1) at room temperature) and a stable structure with a limited amount of defects, even after long plasma treatment (>60 s). This is attributed to preferential modification and limited coverage of the top layer during plasma exposure, while the bottom layer remains almost unperturbed. This could eventually lead to decoupling between top and bottom layers. Double-sided chemical functionalization leads to a structure containing a high concentration of defects, very similar to graphene oxide. This opens the possibility to use plasma treatment not only for etching and patterning of graphene, but also to make heterostructures (through single-sided modification of bilayers) for sensors and transistors and new graphene-derivatives materials (through double-sided modification).

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Synthesis and characterization of MoS₂nanosheets

Deokar

et al. 2016

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Here, we report on the synthesis of MoS2 nanosheets using a simple two-step additive-free growth technique. The as-synthesized nanosheets were characterized to determine their structure and composition, as well as their optical properties. The MoS2 nanosheets were analyzed by scanning electron microscopy, transmission electron microscopy (TEM), including high-resolution scanning TEM imaging and energy-dispersive x-ray spectroscopy, x-ray photoelectron spectroscopy (XPS), Raman spectroscopy and photoluminescence (PL). The as-produced MoS2 nanosheets are vertically aligned with curved edges and are densely populated. The TEM measurements confirmed that the nanosheets have the 2H-MoS2 crystal structure in agreement with the Raman results. The XPS results revealed the presence of high purity MoS2. Moreover, a prominent PL similar to mechanically exfoliated few and mono-layer MoS2 was observed for the as-grown nanosheets. For the thin (≤50 nm) nanosheets, the PL feature was observed at the same energy as that for a direct band-gap monolayer MoS2 (1.83 eV). Thus, the as-produced high-quality, large-area, MoS2 nanosheets could be potentially useful for various optoelectronic and catalysis applications.

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Poly(dimethyl siloxane) (PDMS) XPS Reference Core Level and Energy Loss Spectra

Louette

Bodino

Pireaux

2005

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Pierre Louette

Comparison between Different Strategies of Covalent Attachment of DNA to Glass Surfaces to Build DNA Microarrays

A simple method for graphene production based on exfoliation of graphite in water using 1-pyrenesulfonic acid sodium salt

Single‐ and Double‐Sided Chemical Functionalization of Bilayer Graphene

Synthesis and characterization of MoS₂nanosheets

Poly(dimethyl siloxane) (PDMS) XPS Reference Core Level and Energy Loss Spectra

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Pierre Louette

Comparison between Different Strategies of Covalent Attachment of DNA to Glass Surfaces to Build DNA Microarrays

A simple method for graphene production based on exfoliation of graphite in water using 1-pyrenesulfonic acid sodium salt

Single‐ and Double‐Sided Chemical Functionalization of Bilayer Graphene

Synthesis and characterization of MoS2nanosheets

Poly(dimethyl siloxane) (PDMS) XPS Reference Core Level and Energy Loss Spectra

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Product

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Synthesis and characterization of MoS₂nanosheets