posted on 2017-03-29, 00:00authored byJu Hun Lee, Benson Fan, Tuan D. Samdin, David A. Monteiro, Malav S. Desai, Olivia Scheideler, Hyo-Eon Jin, Soyoun Kim, Seung-Wuk Lee
The
mammalian olfactory system provides great inspiration for the
design of intelligent sensors. To this end, we have developed a bioinspired
phage nanostructure-based color sensor array and a smartphone-based
sensing network system. Using a M13 bacteriophage (phage) as a basic
building block, we created structural color matrices that are composed
of liquid-crystalline bundled nanofibers from self-assembled phages.
The phages were engineered to express cross-responsive receptors on
their major coat protein (pVIII), leading to rapid, detectable color
changes upon exposure to various target chemicals, resulting in chemical-
and concentration-dependent color fingerprints. Using these sensors,
we have successfully detected 5–90% relative humidity with
0.2% sensitivity. In addition, after modification with aromatic receptors,
we were able to distinguish between various structurally similar toxic
chemicals including benzene, toluene, xylene, and aniline. Furthermore,
we have developed a method of interpreting and disseminating results
from these sensors using smartphones to establish a wireless system.
Our phage-based sensor system has the potential to be very useful
in improving national security and monitoring the environment and
human health.