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Graphene transistors for real-time monitoring molecular self-assembly dynamics

Chemistry

Graphene transistors for real-time monitoring molecular self-assembly dynamics

M. Gobbi, A. Galanti, et al.

Experience the forefront of nanotechnology with groundbreaking research by Marco Gobbi and colleagues, who demonstrate how graphene devices can monitor molecular self-assembly dynamics in real-time. This innovative approach offers unprecedented sensitivity and speed, paving the way for new discoveries in 2D molecular organization.

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Playback language: English
Abstract
Monitoring molecular self-assembly in real time at the solid/liquid interface is challenging. This paper demonstrates that graphene devices can act as highly sensitive detectors for in-situ monitoring of molecular self-assembly dynamics. Using a photochromic molecule and UV irradiation to trigger self-assembly on graphene, the researchers tracked the process by measuring changes in the device's current. This electrical readout method provides high sensitivity and a potential for nanosecond time-scale resolution, offering a powerful tool to investigate 2D molecular self-organization.
Publisher
Nature Communications
Published On
Sep 18, 2020
Authors
Marco Gobbi, Agostino Galanti, Marc-Antoine Stoeckel, Bjorn Zyskas, Sara Bonacchi, Stefan Hecht, Paolo Samorì
Tags
molecular self-assembly
graphene devices
real-time monitoring
photochromic molecules
electrical readout
nanosecond resolution
2D molecular organization

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