화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.123, No.43, 10454-10459, 2001
Cavity-directed synthesis of labile silanol oligomers within self-assembled coordination cages
This paper introduces a concept that is referred to as cavity-directed synthesis by showing the selective oligomerization of trialkoxysilanes, RSi(OMe)(3) (7), in self-assembled hollow compounds. Pd(II)-linked coordination hosts (cage, bowl, or tube) are found to strictly control the oligomerization of 7 (R = 2-naphthyl) in such a way that their optimal guests are produced in their cavities. Thus, within coordination tube 1, one molecule of 7 is accommodated and subsequently hydrolyzed to give silanetriol RSi(OH)(3) (4). Under ordinary aqueous conditions, this reactive compound undergoes rapid polycondensation (so-called sol-gel condensation) leading to Si-O networks. Within the cavity of 1, however, 4 remains very stable and the polycondensation is completely suppressed. On the other hand, coordination bowl 2 and cage 3 give its dimers RSi(OH)(2)OSi-(OH)(2)R (5) and cyclic trimers [RSi(OH)O](3) (6), respectively. X-ray crystallographic studies clearly show that the cavity size and the shape of 1, 2, and 3 nicely fit with those of 4, 5, and 6, respectively, demonstrating that the cavities strictly direct the oligomerization reaction of 7.