Data for "Predicting and Probing the Local Temperature Rise Around Plasmonic Core–Shell Nanoparticles to Study Thermally Activated Processes"
doi:10.4121/3d09872e-c111-4476-b339-30cc1f6557e8.v1
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doi: 10.4121/3d09872e-c111-4476-b339-30cc1f6557e8
doi: 10.4121/3d09872e-c111-4476-b339-30cc1f6557e8
Datacite citation style:
Mertens, Johannes C. J.; Spitzbarth, Benjamin; Eelkema, Rienk; Hunger, Johannes; Monique van der Veen (2024): Data for "Predicting and Probing the Local Temperature Rise Around Plasmonic Core–Shell Nanoparticles to Study Thermally Activated Processes". Version 1. 4TU.ResearchData. collection. https://doi.org/10.4121/3d09872e-c111-4476-b339-30cc1f6557e8.v1
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Collection
by
Johannes C. J. Mertens
,
Benjamin Spitzbarth
,
Rienk Eelkema
,
Johannes Hunger
,
Monique van der Veen
,
Benjamin Spitzbarth
,
Rienk Eelkema
,
Johannes Hunger
,
Monique van der Veen
Code for heat transfer modeling and experimental data for the paper "Predicting and Probing the Local Temperature Rise Around Plasmonic Core–Shell Nanoparticles to Study Thermally Activated Processes".
history
- 2024-05-31 first online, published, posted
publisher
4TU.ResearchData
associated peer-reviewed publication
Predicting and Probing the Local Temperature Rise Around Plasmonic Core–Shell Nanoparticles to Study Thermally Activated Processes
funding
- Nanoheaters unravel catalytic reactions with ultimate time resolution (grant code VI.Vidi.193.151) NWO
organizations
TU Delft, Faculty of Applied Sciences, Department of Chemical EngineeringMax Planck Institute for Polymer Research
