Ultrasensitive Immunosensing Platform Based on Analyte Induced Disruption of Luminescence Quenching (AIDLuQ)

Authors

Bipin Sharma, Clemson University
Shailendra Chiluwal, Clemson University
Achyut J. Raghavendra, Clemson University
Ramakrishna Podila, Clemson University

Document Type

Poster

Publication Date

4-1-2019

Abstract

In this study, we design an extremely fast and sensitive immunosensing platform using graphene as the sensing platform. A solution containing a mixture of graphene nanoplatelets and gold nanoparticles was coated on to a copier paper using a spray gun to form a uniform coating. Fluorescent quantum dots (QDs) functionalized with antibodies (Ab) were drop casted on to this platform, whose fluorescence was quenched by the graphene on the graphene/gold paper. With the addition of the antigen to this graphene/gold-QD-Ab complex, a disruption of quenching was observed, and the fluorescence intensity increased with increasing concentration of the antigen. A detection limit of as low as 10 fM was obtained for the detection of human Immunoglobulin G (IgG).

Recommended Citation

Sharma, Bipin; Chiluwal, Shailendra; Raghavendra, Achyut J.; and Podila, Ramakrishna, "Ultrasensitive Immunosensing Platform Based on Analyte Induced Disruption of Luminescence Quenching (AIDLuQ)" (2019). Graduate Research and Discovery Symposium (GRADS). 289.
https://open.clemson.edu/grads_symposium/289