There is a need for efficient methods for the synthesis of water-soluble dibenzothiophene (DBT) and dibenzothiophene S-oxide (DBTO) derivatives to allow for the study of atomic oxygen in biological applications. Attaining water-solubility of aromatic compounds is effectively achieved through functionalization with sulfonic acid groups. Three approaches for the synthesis were considered. An indirect approach was unsuccessful. A modular approach was found to be highly effective for one DBTO disulfonic acid derivative (>99% pure). The direct approach was the most straightforward and highest-yielding route. Additionally, a highly effective, scalable, and improved purification method was identified for disulfonic acid DBT and DBTO derivatives, allowing for the isolation of positional isomers and other modifications by using reverse-phase high-performance flash chromatography.