Digital Discovery 2024

Redox and optical data of organic fluorophores are essential for using design rules and properties screening to identify new candidate dyes capable of forming optical materials. While optical data are available and readily extracted, the promise of digital discovery to mine the data and identify new dye candidates for making new fluorescent compounds is limited by experimental electrochemical data. We report methods used to extract data from 20,000+ literature-reported dyes for generating a library of both redox and optical data constituted by 206 dye-solvent entries. Wide heterogeneity in data collection and reporting practices predicated use of a workflow involving manual data extraction, expert annotations of data quality and validation. Chemometric analysis shows distributions of solvents, electrolytes, and reference electrodes used in electrochemistry and the distributions of dye families and molecular weights. Data were extracted and screened to identify fluorophores predicted to form fluorescent solids based on the new class of materials called small-molecule, ionic isolation lattices (SMILES). Sceening used three design rules requiring dyes to be cationic, have a redox window within –1.9 and +1.5 V (vs ferrocene), and a size less than 2 nm. A set of 53 dyes are compliant with all design rules showcasing the potential for using paired electrochemical-optical data in a workflow for designing optical materials.