Novel paper-based sensing platform using photoluminescent gold nanoclusters for easy, sensitive and selective naked-eye detection of Cu2+.

• Cu2+ detection based on the PL quenching of BSA stabilized gold nanoclusters. • The colloidal sensor demonstrated high selectivity and sensitivity for Cu2+. • Gold nanoclusters are impregnated into Whatman paper for increased portability. • Naked-eye detection of Cu2+ from water with portable paper-based sensing platform. • Simple, affordable, and easy-to-use sensor for Cu2+ sensing in real water samples. Herein, we developed a novel, cheap, fast and simple portable sensing platform based on the photoluminescence (PL) quenching effect of paper-incorporated bovine serum albumin protein stabilized gold nanoclusters (BSA-AuNCs) when interacting with Cu ions (Cu2+) from real water samples. First, we demonstrated the sensibility and specificity of the BSA-AuNCs-based sensor for the detection of Cu2+ in solution via PL quenching effect, using a portable fluorescence spectrometer, under 502 nm LED excitation. The limit of detection (LOD) was found to be as low as 0.83 µM. For improved portability and accessibility, the sensing performance of BSA-AuNCs was successfully combined with the unique properties of Whatman paper substrates in order to develop a portable and ready-to-use sensor for the detection of Cu2+ from real water samples. The obtained BSA-AuNCs incorporated paper-based sensing substrate was successfully used for naked-eye detection of Cu2+ levels from water, under UV light, based on the visual detection of PL quenching. We obtained a LOD of 5 µM which was confirmed even for 14 days aged paper sensing substrates. The as-prepared BSA-AuNCs-paper-based sensor was validated for the detection of Cu2+ in different real water samples through the visual examination of the PL quenching on the paper substrates under UV light illumination and relevantly dangerous levels for humans or subaquatic organisms were successfully identified. The newly prepared BSA-AuNCs-incorporated paper-based sensing platform is easy-to-use and presents great promise in the fast, selective, qualitative and semi-quantitative naked-eye detection of Cu2+ in real water samples. [Display omitted] [ABSTRACT FROM AUTHOR]