안드레-진 아티아스

september, 2020

17sep3:00 pm4:00 pm안드레-진 아티아스CNRS / 소르본 대학교 / 연세대학교3:00 pm - 4:00 pm KST ZOOM Application

Event Details

안드레-진 아티아스

소속: CNRS / 소르본 대학교 / 연세대학교
일시: 2020년 8월 19일
시간: 16:00 -17:00

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Electronic Decoupling Strategies for Emitting Graphene-BasedHybrid Platforms: Surface-Confined Supramolecular Self-Assembly as Tool

TElectronicdecoupling of molecular chromophores from graphene to preserve their electronic and optical properties with the objective to elaborate light-responsive hybrid systems for new electronic and optoelectronic nanodevices remains largely unexplored.

In this context, the supramolecular self-assembly of organic building blocks on graphene is an original bottom-up approach towards novel materials displaying unusual properties.[1] Hence, the possible fine-tuning of inter-constituents distances and orientations offered by the design of the building blocks makes the self-assembly approach very appealing for adjusting graphene photonic properties.

Here, we present two examples of electronic decoupling strategies we have recently developed.

In the first one, the quenching of the fluorescence of the adsorbed dye by the adjacent graphene is hindered at the molecular scale. In this spacer-based approach, a specifically designed dual-functionalized building block was self-assembled on graphene leading to the first light-emitting graphene-based hybrid 2D system [2].

The second example is based on surface-confined host-guest chemistry used to trap afunctional 3D building blocks into a large 2D nanoporous template on graphene [3]. This noncovalent graphene functionalization approach allows the immobilization, in a well-defined 2D nanoporous network, of an afunctional 3D complex that projects a dye-based ligand away from the surface and aligned along the normal direction. Thanks to this strategy of decoupling from the graphene as well as the orientation and intermolecular distance control, the platform emits light with the same characteristics as in dilute solution [4].

This decoupling method could open perspectives in the field of electrically induced luminescence at the single-molecule level through STM tip-induced electrical fields.

[1] L. Sosa-Vargas, E. Kim, A. J.Attias, Materials. Horizons, 4, 570(2017)
[2] S. LeLiepvre, P. Du, D. Kreher, F. Mathevet, A. J. Attias, C. Fiorini-Debuisschert,L. Douillard, F. Charra, ACS Photonics,3, 2291−2296 (2016)
[3] R. Brisse, D. Guianvarc’h, C. Mansuy, S. Sagan, D. Kreher, L. Sosa-Vargas, L. Hamitouche,V. Humblot, I. Arfaoui, V. Labet, C. Paris, C. Petit, A. J. Attias, Chem. Commun., 54, 10068 (2018)
[4] B. Kim, E.Kim, I. Arfaoui, C. Paris, C. Petit, A. J. Attias, Materials Horizons, DOI:10.1039/D0MH00950D (2020)

Time

(Thursday) 3:00 pm - 4:00 pm KST

Location

ZOOM Application

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