posted on 2015-01-27, 00:00authored byLei Zhang, Liwei Dai, Yun Rong, Zhenzhong Liu, Dingyi Tong, Youju Huang, Tao Chen
A photoresponsive
amphiphilic gold nanoparticle (AuNP) is achieved
through the decoration of AuNP with hydrophilic poly(ethylene glycol)
(PEG) and hydrophobic photoresponsive polymethacrylate containing
spiropyran units (PSPMA). Owing to the photoresponsive property of
spiropyran units, the amphiphilic AuNPs can easily achieve the controllable
assembly/disassembly behaviors under the trigger by light. Under visible
light, spiropyran units provide weak intermolecular interactions between
neighbored AuNPs, leading to isolated AuNPs in the solution. While
under UV light irradiation, spiropyran units in the polymer brushes
transform into merocyanine isomer with conjugated structure and zwitterionic
state, promoting the integration of adjacent AuNPs through π–π
stacking and electrostatic attractions, further leading to the formation
of Au oligomers. The smart reversible AuNP oligomers exhibited switchable
plasmonic coupling for tuning surface-enhanced Raman scattering (SERS)
activity, which is promising for the application of SERS based sensors
and optical imaging.