Scientists Develop a New Biosensor to Express Colorless and Transparent Biomaterials

Recently a new biosensor has been developed that can detect and analyze biomaterials’
colors using nanostructure and apply a new image signal processing technique.
biomaterials
A biosensor to detect and analyze colorless and transparent biomaterials

Scientists Develop a New Biosensor to Express Colorless and Transparent Biomaterials

The Biosensor can Express Colorless and
Transparent Biomaterials

A biosensor is a device comprising
a physiochemical detector and a biological element that is used to
detect and analyze biomaterials’ colors using nanostructure.
It also has a wide range of
uses ranging from clinical through
to agricultural, environmental and food industry.

On Wednesday, 20 February 2019, Daegu Gyeongbuk Institute of Science and
Technology (DGIST) announced that Professor Jae Eun Jang’s research team in the
Department of Information and Communication Engineering has developed a
biosensor that can detect and analyze biomaterials’ colors using nanostructure
and apply a new image signal processing technique.

Active R&D is working on explaining the relationship with a certain
illness and outbreak mechanism through the analysis of biometrics
(biomaterials) inside organs or cells.
 Since biomaterials such
as proteins are difficult to be seen and analyzed by optical
microscopes or naked eyes because they are colorless and transparent
within the range of visible rays. 
Using a biomarker to show a certain
color, a different approach is taken to see them after secondary
processing. 
However, the development of new
technology has been demanded to find biomaterials without biomarkers as
biomarker techniques can change the characteristics of biomaterials and some of
them cannot be taken in biomarker processing.

The researchers produced a plasmonic nanostructure, where uniform
nanoholes are applied regularly on a metal film. 
Like a color lens that
allows certain light selectively to pass through if regular
punctures or fine holes are drilled on a metal film, then the property
around a nanostructure is changed and showing a different color, the
wavelength of the selected light also changes. 
Different colors appear by the
substance when different biomaterials are placed on a nanostructure, that can
be seen and observed by the microscope or even naked eyes.

At first, using a simplified image sensor, the researchers
obtained biomaterials without an analyzer such as a
spectrometer and then analyzed the biometric image data by pixels. 
They developed a high-resolution
image processing technique by demonstrating that color sensitivity through
the biomaterial changes that are related to the time periods of
the nanostructure arrangement.

Using this technique, the researchers succeeded in obtaining color
information of nanostructure by altering biomaterials through the image
sensor and developed a biometric sensor (biosensor) that can accurately detect
real-time biological materials (biomaterials) through the application of newly
developed signal processing technology.

The biosensor developed by the researchers can easily analyze and detect
biomaterials in real time without an analyzer or secondary
processing technology so that it can be widely used in various
biological researches such as disease mechanism analysis and the development of
new drugs. 
It can also be readily marketed as
it is applicable to the current analysis method using a microscope.

“We have developed a core technology that can effectively apply
on classifying and tracking essential biomaterials in biological research.
We expect it can be used actively in
brain disease research and treatment through the results of integrated research
by electronic engineering, nanoengineering, and brain science
experts,” said Professor Jae Eun Jang in the Department of
Information and Communication Engineering.

Using the selective penetrability by the plasmonic nanostructure,Professor Jae
Eun Jang’s team in the Department of Information and Communication
Engineering has conducted biosensor research through joint research
with the team of Professor Jae Youn Hwang in the Department of Information
and Communication Engineering and Professor Che Il Moon’s team in the
Department of Brain and Cognitive Sciences. 


Story Source: 

Journal Reference:

Youngjin Lee, Jae Yeon
Kim, Hyuk-Jun Kwon, Seunguk Kim, Jae Hoon Yang, Jae Youn Hwang,
Jae Eun Jang, Cheil Moon. Biosensors and Bioelectronics, 2019; 126:
743 DOI: 10.1016/j.bios.2018.11.048 Color-sensitive and the spectrometer-free plasmonic sensor for biosensing applications


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