Abstract The aim of this dissertation is to design, synthesize and biologically evaluate penciclovir containing substituted cyclopropanecarboxylic acid esters as potential anti-HSV agents. Combining prodrug strategy and Bender’s research, cyclopropanecarboxylic acid ester prodrugs of penciclovir with enhanced hydrolytic stability was designed and expected to enhance permeation of penciclovir into the retinal and corneal tissues. But these compounds （26a, 26b, 26c） showed no activity against HSV-1 and HSV-2, a moderate activity against VZV. Even these compound possess a good water solubility, we found the half-life is too long, thus the parent drug penciclovir could not be released to inhibit the herpes. Furthermore, with an interest to modify the prodrug strategy, we turn to design the ganciclovir containing substituted cyclopropanecarboxylic amide 36. Even with a lot of efforts to synthesis this compound, it showed no activity against the herpes. And the analysis of the stability in phosphate buffer showed that it has a longer half-life of 279 days compared with penciclovir containing cyclopropanecarboxylic acid moiety probably because of the more stable feature of amide bond than the ester bond. These efforts and results suggest that the strategy of incorporating cyclopropanecarboxylic acid moiety to the penciclovir and ganciclovir were useful to improve the solubility but losing activity against herpes.