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Main Authors: Stete, Felix, Kesarwani, Shivani, Ruhmlieb, Charlotte, Askes, Sven, Schulz, Florian, Bargheer, Matias, Lange, Holger
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.16839982
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author Stete, Felix
Kesarwani, Shivani
Ruhmlieb, Charlotte
Askes, Sven
Schulz, Florian
Bargheer, Matias
Lange, Holger
author_facet Stete, Felix
Kesarwani, Shivani
Ruhmlieb, Charlotte
Askes, Sven
Schulz, Florian
Bargheer, Matias
Lange, Holger
contents <p>Dataset used for the figures in the paper "Inverted Temperature Gradients in Gold–Palladium Antenna–Reactor Nanoparticles".</p> <p><br>The static absorbance spectra used in Figure 1c are found in the file "Static Spectra.csv". The first line gives the respective name of the sample, while the first column defines the wavelengths.</p> <p>The transient spectra of Pd decorated samples are stored in the file "FluenceDependentTransientsWithPd.csv". The time delay between pump and probe in ps is saved in the first column. The sample name and the respective fluence are listed in the first row.</p> <p>The transients of the pure gold sample pumped with 0.01 mJ/cm², 0.07 mJ/cm², and 0.44 mJ/cm² are stored in the file "FluenceDependentTransientsPureGold.csv". The time delay between pump and probe in ps is saved in the first column. The sample name and the respective fluence are listed in the first row.</p> <p>The transient of the pure gold sample, pumped with 1 mJ/cm², is saved in the file "FluenceDependentTransientsPureAu1mJ.csv" with the time delay in ps between pump and probe saved in the first column.</p> <p>Figure 3a can be recreated by plotting the transients with approx. 1 mJ/cm² pump fluence taken from "FluenceDependentTransientsWithPd.csv" and "FluenceDependentTransientsPureAu1mJ.csv". Figures 4b and 4c and Supplementary Figures 7a and 7b can be recreated by plotting the transients of the respective samples for all three given fluences over the time delay in the first column. Figure 4a is recreated by plotting the three transients from "FluenceDependentTransientsPureGold.csv" over the time delay.</p> <p>The delay times that were extracted from the transients and that are plotted in Figure 3b are stored in the file "FluenceDependentDecayTimes.csv". Here, the first line lists the sample names and fluences. The second row once more defines the respective fluence in mJ/cm² and the third row lists the respective decay times in ps.</p> <p>The "zero-excitation electron–phonon coupling times" that are plotted in Figure 3c are stored in the file "tau_0.csv", again with the sample name given in the first row. tau_0 in ps is then listed in the second row.</p> <p> </p> <p> </p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_16839982
institution Zenodo
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publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Transient Absorption Data Of Pd-Au Nanoparticles
Stete, Felix
Kesarwani, Shivani
Ruhmlieb, Charlotte
Askes, Sven
Schulz, Florian
Bargheer, Matias
Lange, Holger
<p>Dataset used for the figures in the paper "Inverted Temperature Gradients in Gold–Palladium Antenna–Reactor Nanoparticles".</p> <p><br>The static absorbance spectra used in Figure 1c are found in the file "Static Spectra.csv". The first line gives the respective name of the sample, while the first column defines the wavelengths.</p> <p>The transient spectra of Pd decorated samples are stored in the file "FluenceDependentTransientsWithPd.csv". The time delay between pump and probe in ps is saved in the first column. The sample name and the respective fluence are listed in the first row.</p> <p>The transients of the pure gold sample pumped with 0.01 mJ/cm², 0.07 mJ/cm², and 0.44 mJ/cm² are stored in the file "FluenceDependentTransientsPureGold.csv". The time delay between pump and probe in ps is saved in the first column. The sample name and the respective fluence are listed in the first row.</p> <p>The transient of the pure gold sample, pumped with 1 mJ/cm², is saved in the file "FluenceDependentTransientsPureAu1mJ.csv" with the time delay in ps between pump and probe saved in the first column.</p> <p>Figure 3a can be recreated by plotting the transients with approx. 1 mJ/cm² pump fluence taken from "FluenceDependentTransientsWithPd.csv" and "FluenceDependentTransientsPureAu1mJ.csv". Figures 4b and 4c and Supplementary Figures 7a and 7b can be recreated by plotting the transients of the respective samples for all three given fluences over the time delay in the first column. Figure 4a is recreated by plotting the three transients from "FluenceDependentTransientsPureGold.csv" over the time delay.</p> <p>The delay times that were extracted from the transients and that are plotted in Figure 3b are stored in the file "FluenceDependentDecayTimes.csv". Here, the first line lists the sample names and fluences. The second row once more defines the respective fluence in mJ/cm² and the third row lists the respective decay times in ps.</p> <p>The "zero-excitation electron–phonon coupling times" that are plotted in Figure 3c are stored in the file "tau_0.csv", again with the sample name given in the first row. tau_0 in ps is then listed in the second row.</p> <p> </p> <p> </p>
title Transient Absorption Data Of Pd-Au Nanoparticles
url https://doi.org/10.5281/zenodo.16839982