Ag-CNT Architectures for Attomolar Dopamine Detection and 100-Fold Fluorescence Enhancements with Cellphone-Based Surface Plasmon-Coupled Emission Platform.

Pradeep Kumar BadiyaVenkatesh SrinivasanTejkiran Pindi JayakumarSai Sathish Ramamurthy

Published in: Chemphyschem : a European journal of chemical physics and physical chemistry (2016)

We report cellphone-based detection of dopamine with attomolar sensitivity in clinical samples with the use of a surface plasmon-coupled emission (SPCE) platform. To this end, silver-coated carbon nanotubes were used as spacer and cavity materials on SPCE substrates to obtain up to 100-fold fluorescence enhancements. The presence of silver on the carbon nanotubes helped to overcome fluorescence quenching arising due to π-π interactions between the carbon nanotube and rhodamine 6G. The competing adsorption of dopamine versus rhodamine 6G on graphene oxide was utilized to develop this sensing platform.

Keyphrases

carbon nanotubes
energy transfer
quantum dots
uric acid
high throughput
single molecule
gold nanoparticles
loop mediated isothermal amplification
fluorescent probe
label free
real time pcr
silver nanoparticles
metabolic syndrome
sensitive detection
highly efficient
solid state
aqueous solution