Water
and food contamination has become the major contributor
to
infections and deaths. However, rapid and sensitive bacterial detection
still remains an unmet demand that has attracted widespread attention.
Often water and food samples are sent out for laboratory testing to
detect the presence of contamination, which is time-consuming and
laborious. Herein, we have developed a highly sensitive, tenable, affordable, and robust (STAR) paper-based colorimetric
dipstick sensor based on the principle of Prussian blue (PB) synthesis
as an indicator of bacterial contamination. In the presence of bacteria,
it leads to the formation of PB, a dye that acts as a colorimetric
indicator. The intensity of the PB is the direct measure of the degree
of contamination. The fabrication of the STAR dipstick sensor involves
a simple and cost-effective process. The STAR dipstick sensor is ultrasensitive
and can detect up to 101 CFU/mL of bacteria within minutes
of contact with the test sample. The STAR dipstick sensor is fabricated
using biodegradable components, which is speculated to facilitate
quick and environmentally friendly degradation after each use. The
sensor has been validated for its properties and capabilities at different
pH to detect both Gram-positive and Gram-negative bacterial strains
in real-time samples. The stability and degradation were also monitored.
Comprehensively, the proposed STAR dipstick sensor can serve as a
point-of-care device to detect bacterial contamination in a swift
and sensitive manner.