Add to ORKGGraphene nanoribbons display extraordinary optical properties due to one-dimensional quantum-confinement, such as width-dependent bandgap and strong electron-hole interactions, responsible for the formation of excitons with extremely high binding energies. Here we use femtosecond transient absorption spectroscopy to explore the ultrafast optical properties of ultranarrow, structurally well-defined graphene nanoribbons as a function of the excitation fluence, and the impact of enhanced Coulomb interaction on their excited states dynamics. We show that in the high-excitation regime biexcitons are formed by nonlinear exciton-exciton annihilation, and that they radiatively recombine via stimulated emission. We obtain a biexciton binding energy ...
When two sheets of graphene stack in a twisted bilayer graphene (<i>t</i>BLG) configuration, the res...
International audienceGraphene nanoribbons synthesized by the bottom-up approach with optical energy...
Multiple exciton generation has the promise of improving photovoltaic device efficiency. However, oc...
Graphene nanoribbons display extraordinary optical properties due to one-dimensional quantum-confine...
The bottom-up fabrication of graphene nanoribbons (GNRs) has opened new opportunities to specificall...
We investigate from first principles the optoelectronic properties of nanometer-sized armchair graph...
By enhancing the photoluminescence from aligned seven-atom wide armchair-edge graphene nanoribbons u...
The opening of a band gap in graphene nanoribbons induces novel optical and electronic properties, s...
Abstract: The optical excitations of elongated graphene nanoflakes of finite length are investigated...
By enhancing the photoluminescence from aligned seven-atom wide armchair-edge graphene nanoribbons u...
The opening of a band gap in graphene nanoribbons induces novel optical and electronic properties, s...
When two sheets of graphene stack in a twisted bilayer graphene (<i>t</i>BLG) configuration, the res...
International audienceGraphene nanoribbons synthesized by the bottom-up approach with optical energy...
Multiple exciton generation has the promise of improving photovoltaic device efficiency. However, oc...
Graphene nanoribbons display extraordinary optical properties due to one-dimensional quantum-confine...
The bottom-up fabrication of graphene nanoribbons (GNRs) has opened new opportunities to specificall...
We investigate from first principles the optoelectronic properties of nanometer-sized armchair graph...
By enhancing the photoluminescence from aligned seven-atom wide armchair-edge graphene nanoribbons u...
The opening of a band gap in graphene nanoribbons induces novel optical and electronic properties, s...
Abstract: The optical excitations of elongated graphene nanoflakes of finite length are investigated...
By enhancing the photoluminescence from aligned seven-atom wide armchair-edge graphene nanoribbons u...
The opening of a band gap in graphene nanoribbons induces novel optical and electronic properties, s...
When two sheets of graphene stack in a twisted bilayer graphene (<i>t</i>BLG) configuration, the res...
International audienceGraphene nanoribbons synthesized by the bottom-up approach with optical energy...
Multiple exciton generation has the promise of improving photovoltaic device efficiency. However, oc...