Intelligent and thermo-responsive Au-pluronic? F127 nanocapsules for Raman-enhancing detection of biomolecules

Thermo-responsive Raman-enhanced nanocapsules were successfully fabricated by Pluronic (R) F127 (F127) decorated with gold nanoparticles (AuNPs) for surface-enhanced Raman scattering (SERS) detection of biomolecules. F127 nanocapsules changes from hydrophilicity (swelling) to hydrophobicity (de-swelling) when the temperature increases from 15 degrees C to 37 degrees C, owing to the lower critical solution temperature (LCST) of F127 is about 26.5 degrees C. The size of nanocapsules would be enormous shrinking from 160 nm to 20 nm, resulting in a significant decrease in the distance between AuNPs to enhance hot spot effect, which increases the sensitivity of SERS detection. Based on the thermo-sensitive behavior, the ratio of AuNPs and F127 would be manipulated to find the optimal SERS enhancement effect. SERS nanocapsules can rapidly detect biomolecules (adenine and R6G) with limit of detection (LOD) lower than 10-6 M. In addition, the relatively difficult to detect clinical samples, carboxyl-terminal parathyroid hormone fragments (C-PTH), can also be measured by the thermoresponsive SERS nanocapsules developed in this work. It is expected the biomolecules can be adsorbed at low temperature (15 degrees C), as well as collected and concentrated at high temperature (37 degrees C) for SERS detection, to increase the sensitivity and stability of SERS detection.

Automated summary

Thermo-responsive Raman-enhanced nanocapsules were successfully fabricated, utilizing the change from hydrophilicity to hydrophobicity at different temperatures to enhance the sensitivity of surface-enhanced Raman scattering. By optimizing the ratio of AuNPs and F127, the SERS detection effect was significantly improved, enabling rapid detection of various biomolecules.