Graphene

Graphene

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Where does graphene come from and why study it?

Graphene occupies a pivotal position in the realm of advanced materials, or 2D materials, playing a huge part in a new era of innovation and technological advancement.

Graphene is a single layer of carbon atoms arranged in a two-dimensional honeycomb lattice, resembling a thin, but durable, sheet. While it occurs naturally in small quantities, most of the graphene used in research and applications is produced through various synthetic methods.

The ability to manipulate graphene at its atomic level creates endless possibilities in diverse fields. Graphene’s exceptional properties, including its strength, conductivity, flexibility, and thermal conductivity, are revolutionizing industries like electronics, energy storage, and biomedical applications.

Scientists are studying graphene to unlock its full potential and use it in advanced materials, which will help us make progress and innovate for a sustainable future.

Resources

Graphene webinars

Fast Raman Mapping on Graphene

See how ultra-fast Raman mapping can be used to analyze graphene for number of layers and defects.

Precise Editing on Graphene Surface

Presented by Prof. Zhengzong Sun, Fudan University, Shanghai, China.
In this presentation we would like to share some of the recent editing strategies we have been exploring in our group.

Graphene application notes

HORIBA Solutions

Discovering graphene's potential requires precise evaluation. HORIBA offers a range of advanced tools tailored for graphene characterization, from Raman spectroscopy, providing insights into graphene's structural properties and defects, to atomic force microscopy (AFM) to obtain precise imaging and measurement at the nanoscale. HORIBA's solutions empower researchers to unlock graphene's full potential. Whether analyzing electrical properties, thermal conductivity, or mechanical strength, HORIBA's state-of-the-art instruments deliver accurate data, driving advancements in electronics, energy, and beyond.

LabRAM Soleil
LabRAM Soleil

Raman Microscope

SignatureSPM
SignatureSPM

Scanning Probe Microscope with Chemical Signature

UVISEL Plus
UVISEL Plus

Spectroscopic Ellipsometer from FUV to NIR: 190 to 2100 nm

Cathodoluminescence - CLUE Series
Cathodoluminescence - CLUE Series

Cathodoluminescence Solutions for Electron Microscopy

Partica CENTRIFUGE
Partica CENTRIFUGE

Centrifugal Nanoparticle Analyzer

XploRA™ PLUS
XploRA™ PLUS

MicroRaman Spectrometer - Confocal Raman Microscope

LabRAM Odyssey Semiconductor
LabRAM Odyssey Semiconductor

Photoluminescence and Raman Wafer Imaging

LabRAM Soleil Nano
LabRAM Soleil Nano

Real-time and Direct Correlative Nanoscopy

Informationsanfrage

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