The synthesis of a new highly symmetric hexakis adduct of C60 appended with 12 cyclooctyne moieties has been carried out. This compound has been used for the copper-free strain-promoted cycloaddition reaction to a series of azides with excellent yields. This strategy for the obtention of clicked adducts of [60]fullerene is of special interest for biological applications.[60]Fullerene hexakis adducts with Th symmetry constitute an attractive class of compounds that allow the globular disposition of substituents around the C60 core. 1 These compounds have attracted much attention in the last recent years, both in the areas of materials science and biomedicine. Thus, some of them present liquid crystal behavior, 2 have been employed for the study of electronic and energy transfer processes, 3 as organic connectivity centers for the synthesis of Metal Organic Frameworks (MOFs), 4 or as catalysts. 5 On the other hand, in the area of biological applications, their activity has been tested in different fields showing interesting properties and good biocompatibility. Hexakis adducts of [60]fullerene have been tested as gene transfection vectors, 6 multiplying units for photodynamic therapy, 7 glycosidase and glycosyltransferase inhibitors, 8 or efficient antibacterial 9 or antiviral systems. 10 The synthesis of these adducts was first studied by Hirsch by the one-pot addition of malonates templated by 9,10-dimethylanthracene 11 and later modified by Sun. 12 However, these procedures are often limited by the size of the malonates, as the steric aspects limit the yield of the reaction. To overcome this drawback, Nierengarten proposed the employment of an azide appended malonate to obtain a clickable hexakis adduct of C60 to effectively allow the covalent functionalization of [60]fullerene by Cu(I) alkyne-azide cycloaddition (CuAAC) reaction. 13 Lately, Nierengarten and we described the 12-alkyne modified hexakis adduct of [60]fullerene and its use in the click chemistry addition of azides and alkynes. 14 This effective reaction requires, however, the use of copper (I) as catalyst, which involves a subsequent purification step for the removal of copper, especially with those materials for bio-medical applications, owing to its high cytotoxicity. This step can be hampered by the presence in the final products of functional groups, and even the triazole rings themselves, capable of binding copper, thus limiting their biological applications. 15 A strategy to avoid this purification step is to employ of strain promoted alkyne-azide cycloaddition (SPAAC) click reaction. This reaction, developed by Bertozzi and coworkers, 16 consists of the reaction of strained cyclooctynes with azides and has received considerable attention owing to its simplicity and faster reaction rates, avoiding the use of a metal as catalyst. As it does not require the use of copper, it has especial relevance for biological applications. In the present communication we report the synthesis of a new hexakis adduct of [60]fullerene substituted with twelve c...
