Smart Hybrid Materials (SHMs)
Khashab Research Group
Innovatively Functionalized Nanomaterials for Biomedical, Sensing and Composites Applications

Publication-14

Redox- and pH-Controlled Mechanized Nanoparticles

Khashab, N. M.; Trabolsi, A.; Lau, Y. A.; Ambrogio, M. W.; Friedman, D. C.; Khatib, H. A.; Zink, J. I.; Stoddart, J. F. Redox- and pH-Controlled Mechanized Nanoparticles. Eur. J. Org. Chem. 2009, 11, 1669-1673
Khashab, N. M.; Trabolsi, A.; Lau, Y. A.; Ambrogio, M. W.; Friedman, D. C.; Khatib, H. A.; Zink, J. I.; Stoddart, J. F.
Redox, pH-controlled, nanoparticles
2009
A new class of mechanized silica nanoparticles, which exploits the stability of the inclusion complexes formed between ferrocenedicarboxylic acid and both cucurbit[7]uril (CB7) and β-cyclodextrin (β-CD), are described. Mesoporous silica nanoparticles, capable of storing a payload of small mols. and releasing it following particular activation processes, have been designed and decorated with ferrocenecarboxylic acid stalks. The storage and release of the payload is controlled by the host-guest interaction between the ferrocene moiety (guest) and the ring moiety (CB7 or β-CD). Ferrocene-based Mechanized NanoParticles (FMNPs) were efficiently prepd., loaded with Rhodamine dye, and then tested under different activation procedures. The systems operated successfully under redox control (oxidn. of ferrocenedicarboxylic acid) in the presence of β-CD and under pH control (deprotonation of ferrocenedicarboxylic acid pH > 4) in the presence of CB7.