READ ME File For 'Dataset for the journal article 'Scalable large-area 2D-MoS2/silicon-nanowire heterostructures for enhancing energy storage applications' Dataset DOI: https://doi.org/10.5258/SOTON/D2829 Date that the file was created: Oct, 2023 ------------------- GENERAL INFORMATION ------------------- ReadMe Author: KATRINA MORGAN, University of Southampton Date of data collection: 1ST SEPT 2020 TO 1ST NOV 2022 Information about geographic location of data collection: SOUTHAMPTON, UK Related projects: EP/X016730/1 Smart Cloth, EP/M015130/1, Manufacturing and Application of Next Generation Chalcogenides, ZI stimulus fund grant Morgan et al., AND the Lloyd’s Register Foundation International Consortium of Nanotechnologies [G0086]. -------------------------- SHARING/ACCESS INFORMATION -------------------------- Licenses/restrictions placed on the data, or limitations of reuse:CC-BY Recommended citation for the data: This dataset supports the publication: AUTHORS: Zeimpekis, I., Rahman, T., Leung, O. M., Ebert, M., C. P. De Leon Albarran, and Morgan, K. TITLE:Scalable large-area 2D-MoS2/Black-Si heterostructures for enhancing energy storage applications JOURNAL: ACS Applied Energy Materials PAPER DOI IF KNOWN:10.1021/acsaem.3c03055 -------------------- DATA & FILE OVERVIEW -------------------- This dataset contains: One excel file with 4 tabs, one tab for each graph. Tab one - figure 2: raman spectra measured across 4 points, with raman shift and intensity in columns. Tab two - figure 3: raman E2g, A1g and difference between these for 7 samples. Tab three - figure 6: raw data for PL spectra for 4 samples. Tab four - figure 7: normalised data of figure 6. -------------------------- METHODOLOGICAL INFORMATION -------------------------- Methods used for collection and generation of this data are described in: INSERT DOI OF PAPER Methods for processing the data: Fig 2 and 6 are raw data. Figure 3 was produced by applying Gaussian fits to raman raw data spectra and extracting peak of the two peaks, for A1g and E2g. Figure 7 is normalised data of figure 6, dividing my the peak PL value of each plot. Software- or Instrument-specific information needed to interpret the data, including software and hardware version numbers: Origin Standards and calibration information, if appropriate: Si reference sample for raman and PL. Environmental/experimental conditions: described in manuscript. Describe any quality-assurance procedures performed on the data: repeated measurements and averages with errors provided in fig 3. People involved with sample collection, processing, analysis and/or submission: Zeimpekis, I., and Morgan, K. -------------------------- DATA-SPECIFIC INFORMATION -------------------------- Tab one - figure 2: Number of variables:2 (x 4 samples = 8) Number of cases/rows: 8 columns, 77 rows Variable list, defining any abbreviations, units of measure, codes or symbols used: Raman shift (/cm), Intensity (a.u.) Tab two - figure 3: Number of variables: 6 Number of cases/rows: 6 columns, 6 rows Variable list, defining any abbreviations, units of measure, codes or symbols used: E1g, error in E2g, A1g, error in A1g, A1g-E2g, error in A1g-E2g Tab three - figure 6: raw data for PL spectra for 4 samples. Number of variables: 2 (x 4 samples = 8) Number of cases/rows: 8 coulumns, 5457 rows Variable list, defining any abbreviations, units of measure, codes or symbols used: Binding energy (eV), PL Intesnity Tab four - figure 7: normalised data of figure 6. Number of variables: 2 (x 4 samples = 8) Number of cases/rows: 8 coulumns, 5457 rows Variable list, defining any abbreviations, units of measure, codes or symbols used: Binding energy (eV), PL Intesnity normalised