READ ME File For 'Selection and Characterisation of Weakly Coordinating Solvents for Semiconductor Electrodeposition' Dataset DOI: 10.5258/SOTON/D2187 Date that the file was created: March, 2022 ------------------- GENERAL INFORMATION ------------------- ReadMe Author: Alexander Black, University of Southampton [https://orcid.org/0000-0003-3001-3083] Date of data collection: August 2018 to October 2021 Information about geographic location of data collection: Related projects: ADEPT -------------------------- 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: Alexander W. Black, Philip N. Bartlett TITLE: Selection and Characterisation of Weakly Coordinating Solvents for Semiconductor Electrodeposition JOURNAL: Physical Chemistry Chemical Physics PAPER DOI IF KNOWN: 10.1039/d2cp00696k Links to other publicly accessible locations of the data: n/a Links/relationships to ancillary or related data sets: n/a -------------------- DATA & FILE OVERVIEW -------------------- This dataset contains: One .opju file containing data corresponding to each Figure in the manuscript where experimental data was acquired in individual books Figure 2: Plots of double-layer capacitance as a function of potential for each solvent studied scanning in the positive direction Figure 3: Microdisc voltammograms at three sizes of microelectrode in each solvent studied Figure 4: Plots of the redox potential of cobaltocenium hexafluorophosphate as a function of a measure of polarity of the solvent Figure 5: Plots of the limiting current at a microelectrode as a function of microelectrode size in each solvent studied Figure 6: Plots of diffusion coefficient as a function of viscosity for decamethylferrocene and cobaltocenium hexafluorophosphate in each solvent studied Figure S1: Cyclic voltammograms of the potential window in each solvent studied at macroelectrodes of platinum, gold and glassy carbon Figure S3: Plots of double-layer capacitance as a function of potential for each solvent studied scanning in the negative direction Figure S4: Plots of peak current as a function of the square root of scan rate for decamethylferrocene and cobaltocenium hexafluorophosphate in each solvent studied Figure S5: Macrosdisc cyclic voltammograms of decamethylferrocene and cobaltocenium hexafluorophosphate at electrodes of platinum, gold and glassy carbon in each solvent studied Figure S6: Mass transport corrected Tafel plots of decamethylferrocene and cobaltocenium hexafluorophosphate at a microelectrode in each solvent studied -------------------------- METHODOLOGICAL INFORMATION -------------------------- Methods for processing the data: current data was divided by the surface area of the electrode to give plotted current density