M13 Bacteriophage
Various applications of M13 bacteriophage
Nat. Commun. 5, 3043
Colorimetric Sensor
Adv. Sci. , 7, 2000978
Large Area color sensor
ACS Appl. Mater. Interfaces 10, 10388−10397
SERS
Nat. Nanotechnol. 6, 377
Photovoltaic devices
Energy. Eviron. Sci. 8, 3198
Piezo electric devices
Science 303, 213
Nanowires
Science 312, 885
Li ion Batteries
Nano lett. 9.2, 846
Nano fiber
Adv. Mater. 34, 2201210
Disease therapy
Nat. Nanotechnol. 7, 677
Vivo imaging of prostate cancer
Breath Analysis Technology
01
A next-generation electronic nose that overcomes the limitations of existing gas receptors
by utilizing the physical properties of M13
02
Providing an optimized electronic nose
for specific target analytes
03
Complex gas analysis
applying AI-based pattern classification techniques
Configuration of physical electronic nose systems
Overcoming limitations of existing gas sensors
with amino acid receptors
Patterning of color changes on the sensor
by target material
Analysis using AI-based
pattern classification algorithms
Pattern changes on array sensors
Liquid sample analysis technology
01
Electronic nose using optical signal amplification
by combining M13 and nanomaterials
02
High sensitivity measurement
of molecules of various sizes from 1 to 100 nm
03
Introducing heat-resistant materials
to ensure optical signal repeatability and structural stability
Configuration of optical electronic nose systems
Absorption spectrum tuning
through hybrid interfaces
Optimizing optical signals
using surface plasmon amplification
Target material signal amplification
(High sensitivity)
Hybrid interface optical signal
Target material detection technology
01
Electronic nose for target material detection
maximizes the chemical properties of transition metals with M13
02
600 sensor candidates
with different chemical properties
03
Provides a suitable format (paper, liquid, etc.)
to suit user needs
Configuration of chemical electronic nose technology
Changes in the complexation of transition metals
by target substances
Absorption spectrum changes
in chemical electronic nose systems
Intuitive
target material detection
Color change of transition metal complex