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The compound 2-(((trifluoromethyl)sulfonyl)oxy)propane-1,3-diyl bis(4-methylben-zenesulfonate) (TPB) is a crucial intermediate in the synthesis of ¹⁸F radiolabeled cromolyn derivatives. In this work, we combine ¹H NMR spectroscopy, X-ray crystallography, ab initio molecular dynamics and NMR calculations to examine the structure, interactions and solvation dynamics of the TPB molecule. In CDCl3, the -CH2 groups within its glyceryl-derived linker exhibit a single set of proton signals in the ¹H NMR measurements. However, when TPB is dissolved in DMSO-d6, distinct splitting patterns emerge despite its seemingly symmetric chemical structure. Crystallographic analysis further unveils the absence of overall symmetry in its three-dimensional arrangement. To elucidate these unique NMR features, we carry out ab initio molecular dynamics simulations and characterize the solvation structures and dynamics of TPB in CHCl3 and DMSO solutions. In contrast to the predominantly non-polar nature of the CHCl3 solvents, DMSO directly participates in C-H···O hydrogen bonding interactions with the solute molecule, leading to the splitting of its -CH2 chemical shifts into two distinct distributions. The comprehensive understanding of the structure and solvation interactions of TPB provides essential insights for its application in the radiofluorination reactions of cromolyn derivatives and holds promise for the future development of radiolabeled dimeric drugs.