ERC TAME Plasmons Closing Workshop

ERC TAME Plasmons Closing Workshop

We were present at the ERC TAME PLASMONS CLOSING WORKSHOP 2021 .

Tommaso Giovannini was an invited speaker and held a presentation with the title Nanoplasmonics of Noble Metal Nanoparticles: A Classical Atomistic Model. 

Congrats Tommaso ! 

Our frequency-dependent fluctuating charges model (wFQ)  was presented highlighting the high accuracy of the model in reproducing both theoretical and experimental reference results.

The low cost of the method allows wFQ to explore the plasmonic properties of systems of tenths to hundreds of nanometers and therefore entering the experimentally resolvable scale.

For more about the wFQ model and its applications get a look at the following papers:

. T. Giovannini, M. Rosa, S. Corni, C. Cappelli “A classical picture of subnanometer junctions: an atomistic Drude approach to nanoplasmonic”  Nanoscale 2019, DOI:10.1039/C8NR09134J;

. T. Giovannini, L. Bonatti, M. Polini, C. Cappelli “Graphene Plasmonics: Fully Atomistic Approach for Realistic Structures”, J.Phys. Chem.Lett. 2020 DOI: 10.1021/acs.jpclett.0c02051.

. L. Bonatti, G. Gil, T. Giovannini, S. Corni, C. Cappelli “Plasmonic Resonances of Metal Nanoparticles: Atomistic vs. Continuum Approaches”, Front. Chem. 2020, DOI: 10.3389/fchem.2020.00340.

For more about Tommaso Giovannini’s research activity visit its Google Scholar page.

Don’t hesitate to contact us for more information.

ERC TAME Plasmons Closing Workshop

We were present at the ERC TAME PLASMONS CLOSING WORKSHOP 2021.

ERC TAME Plasmons Closing Workshop

22-24 September 2021

Tommaso was an invited speaker and held a presentation with the title Nanoplasmonics of Noble Metal Nanoparticles: A Classical Atomistic Model.

Congrats Tommaso!

Our frequency-dependent fluctuating charges model (wFQ)  was presented highlighting the high accuracy of the model in reproducing both theoretical and experimental reference results.

The low cost of the method allows wFQ to explore the plasmonic properties of systems of tenths to hundreds of nanometers and therefore entering the experimentally resolvable scale.

For more about the wFQ model and its applications get a look at the following papers:

. T. Giovannini, M. Rosa, S. Corni, C. Cappelli “A classical picture of subnanometer junctions: an atomistic Drude approach to nanoplasmonic”  Nanoscale 2019, DOI:10.1039/C8NR09134J;

. T. Giovannini, L. Bonatti, M. Polini, C. Cappelli “Graphene Plasmonics: Fully Atomistic Approach for Realistic Structures”, J.Phys. Chem.Lett. 2020 DOI: 10.1021/acs.jpclett.0c02051.

. L. Bonatti, G. Gil, T. Giovannini, S. Corni, C. Cappelli “Plasmonic Resonances of Metal Nanoparticles: Atomistic vs. Continuum Approaches”, Front. Chem. 2020, DOI: 10.3389/fchem.2020.00340.

Tommaso’s Talk

For more about Tommaso Giovannini’s research activity visit its Google Scholar page.

Don’t hesitate to contact us for more information.

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