Dataset for "Singlet oxygen generation by nanoporous silicon: photoluminescence dynamics in magnetic field"

676 37 11420 4 33320 document 11420 Figure_4_all_data.zip application/zip 1be8831539345dd090cdb5fd70333cb9 MD5 622829 2019-06-19 11:42:55 https://researchdata.bath.ac.uk/676/1/Figure_4_all_data.zip 676 1 1 application/zip other Raw experimental data for Figure 4. Format: pairs of wavelength (nm), photon counts File naming system: In article, label "Sample 1" refers to sample PSi350, label "Sample 2" refers to PSi34. Temperature is 1.5K in all cases (included in some filenames); Acquisition time is 1s or 10s as indicated in file names; Magnetic field is indicated in filenames either as 1,5T (meaning 1.5 Tesla) or 1T5 (meaning the same); Level of exposure to oxygen is indicated in the collective ZIP file name en public cc_by_sa

Figure_4_all_data.zip

data archive 472 disk0/00/00/06/76 2019-09-18 10:25:54 2024-07-15 10:59:11 2019-09-18 10:25:54 data_collection show Wolverson Daniel D.Wolverson@bath.ac.uk 0000-0002-5578-6018 University of Bath TRUE Dataset for "Singlet oxygen generation by nanoporous silicon: photoluminescence dynamics in magnetic field" BS0040 BS0050 dept_physics Files contain raw experimental data for Figure 4. Format: pairs of wavelength (nm), photon counts. Data for Figures 8 and 10 is derived directly from the data for Figure 4. All other figures contain schematic diagrams or results of calculations using the model which is the main topic of the publication and is described in full there, including values of input parameters. The dataset contains raw measurements of low temperature magneto-photoluminescence spectra for porous silicon samples exposed to different levels of adsorbed oxygen. The data is structured in pairs of wavelength (nm) and photon counts, which were recorded for 1s or 10s acquisition time and constant temperature of 1.5K 2019-09-13 University of Bath public RightsHolder University of Bath Engineering and Physical Sciences Research Council https://doi.org/10.13039/501100000266 EP/J007552/1 Spin-Dependent Phenomena Mediated by Silicon Nanocrystal Assemblies cent_nan cent_photon cent_sus_tech cent_cmpcdt Details of the data collection method can be found in the associated publication. https://doi.org/10.1186/1556-276X-9-342 en 1 10.15125/BATH-00676 https://doi.org/10.1088/1361-6528/ab4442 pub