Spectroscopic studies on antimalarial Artesunate: Raman and surface-enhanced Raman scattering and adsorption geometries of Artesunate on silver nanoparticles

Abstract In this paper we report on the Raman scattering of antimalarial artesunate, as a neutral species and as an anion in sodium salt, and on the surface-enhanced Raman scattering (SERS) of the anion adsorbed on silver nanoparticles. The vibrational assignment of the strongest Raman peaks of artesunate has been made with reference to the Raman data on artemisinin and by identifying peaks due to modes largely localized on the succinic side chain of artesunate. The structure of artesunate, as well as that of the anion, has been optimized by means of ab-initio calculations at the DFT/B3LYP/cc-pVDZ calculation level and found in good agreement with the experimental molecular geometry. The conformational minima of the flexible side chain both in the anion and in the anion complexed with Ag+ have been characterized by ab-initio methods at the same level of accuracy and eight pairs of conformers have been predicted. From these data the vibrational frequencies and Raman intensities have been obtained. This has allowed to assign the SERS spectrum of chemisorbed artesunate to conformers with nearly all-trans side chain. For these conformers the artemisinin core lies as far as ≈ 9 A from the silver ion and the active SERS modes are localized on the succinic fragment. Minor contributions to the SERS intensity are due to the di-silver complex and a more sterically hindered mono complex. It is a major conclusion of this study that the interaction of artesunate with the silver surface is exclusively through the side chain, leaving untouched the peroxide group responsible of the antimalarial activity.