graphene biosensor for saliva protein adsorption
TRANSCRIPT
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Graphene Biosensor
for Saliva Protein Adsorption
Gunma University, Japan
Shiyu Wang*, Md. Z. Hossain, T. Suzuki
K. Shinozuka, N. Shimizu, S. Kitada
R. Ichige, A. Kuwana, H. Kobayashi
13th International Conference on ASIC (ASICON 2019)
Chongqing, China Oct. 31, 2019
Kobayashi Lab
B4-5 Room B
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2/18Research Background ELISA
• ELISA is a useful tool
for determining serum antibody concentrations.
• Because of its high sensitivity,
it has been widely used for HIV and cancer detection.
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3/18Research Background ELISA
• But it can not implement real-time detection,
because it will take 24 hours at least in clinical.
• Novel rapid detection method is needed
to complement it.
high sensitivity (24 hours) rapid detection (1 second)
research
objective
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4/18Research Objective
Development of
Rapid quantitative detection of proteins
in biology solutions using graphene biosensors
I made it !
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5/18Research Objective
Blood
Urine
Saliva
Development of
Rapid quantitative detection of proteins
in biology solutions using graphene biosensors
1 cm *1 cm graphene biosensor
the actual experiment situation
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6/18Graphene Biosensor Manufacture Method
• Interdigital electrode manufacture
• Graphene transfer
• Graphene modification
• Real-time detection
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7/18Graphene Biosensor Manufacture Method
• Interdigital electrode manufacture
• Graphene transfer
• Graphene modification
• Real-time detection
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8/18Interdigital Electrode Manufacture
shadow mask
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9/18Graphene Biosensor Manufacture Method
• Interdigital electrode manufacture
• Graphene transfer
• Graphene modification
• Real-time detection
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10/18Graphene Transfer
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11/18Graphene Biosensor Manufacture Method
• Interdigital electrode manufacture
• Graphene transfer
• Graphene modification
• Real-time detection
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12/18Graphene Modification
Surface linker
modification
Non-covalent
combination
Covalent
combination
PBASE gold nanoparticles
Surface linker
modification
Specific
detection
Non-specific
detection
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13/18Graphene Biosensor Manufacture Method
• Interdigital electrode manufacture
• Graphene transfer
• Graphene modification
• Real-time detection
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14/18Real-Time Detection
dropping time
Step
1. Adding the buffer solution, then start detection.
2. Mix saliva with the buffer in equal proportions
3. Then add the mix solution at the dropping time.
2.Mixing the saliva
and the buffer
3. dropping into the pool
the actual current changing test result
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15/18Real-Time Detection
0
0.0002
0.0004
0.0006
0.0008
0.001
0.0012
0.0014
0.0016
0.0018
-20 -10 0 10 20 30 40 50 60Id
s (
A)
Vgs (V)
after absorption
before absorption
The IV character of the graphene before and after absorption has been tested.
At the 0V (WORK POINT) there is an obviously current down after absorption.
dropping time
WORK POINT
Actual test results
The dropping corresponding time
is less than 1 second
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16/18Summary
• By rapidly detecting specific cancer markers,
graphene biosensors expect to achieve
large-scale cancer screening
for early detection of cancer.
• This is NOT possible with ELISA technology.
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17/18Future work
PBS-buffer
Blood+PBS buffer
Urine+PBS buffer
Saliva+PBS buffer
Clinical application
Now 2020 2021
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18/18Future Work
● Development of the graphene biosensor device
for detecting concentration of cancer markers
from saliva, blood, and urine.
● This detection system will monitor
cancer situation of the patient in real-time;
● Hopefully improve survival rate of cancer patients.
Rapid, portable cancer detection equipment
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19/18Acknowledgement
• This work was conducted at Nano-Processing Facility,
National Institute of Advanced Industrial Science and
Technology (AIST), Japan.
• Thanks to Professor Hayato Sone, Professor Kenta
Miura for guiding the equipment operation.
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20/18
Thanks for your listening.