DEVELOPMENT OF MULTI-ANALYTE BIOSENSOR BASED ON SCREEN-PRINTED CARBON ELECTRODE (SPCE) MODIFIED WITH GRAPHENE QUANTUM DOTS (GQDS)
The metabolism of the human body produces various fluids containing essential compounds such as glucose, uric acid (UA), dopamin (DA), and ascorbic acid (AA). These compounds play roles in metabolic activities and can be used for the prevention and treatment of various diseases. Additionally, the...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/85147 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The metabolism of the human body produces various fluids containing essential compounds such
as glucose, uric acid (UA), dopamin (DA), and ascorbic acid (AA). These compounds play roles
in metabolic activities and can be used for the prevention and treatment of various diseases.
Additionally, the levels of drugs, such as paracetamol/acetaminophen (AC) in the body, can
indicate whether organs like the liver and kidneys are functioning properly. The simultaneous
detection of these compounds is crucial for clinical and biological investigations. Electrochemical
biosensors based on screen-printed carbon electrodes (SPCE) are a preferred choice for analyte
detection due to their portability, high sensitivity, and rapid response. However, SPCEs often face
challenges such as weak signals and poor charge transfer. To address these issues, modifications
with graphene quantum dots (GQDs) have been implemented.
In this final project, an electrochemical biosensor based on SPCE modified with GQDs was
developed for multi-analyte detection. The synthesis results of GQDs showed an average size of
3.21 nm with a carbon concentration of 64.7% and oxygen concentration of 35.3%. The
performance of SPCE/GQDs@Nafion for AC showed a linear range of 0-2000 ?M, a LoD of 0.378
?M, and a LoQ of 1.15 ?M. For AA, the linear range was 0-2000 ?M, the LoD was 3.968 ?M, and
the LoQ was 12.025 ?M. For UA, the linear range was 0-2000 ?M, the LoD was 2.546 ?M, and
the LoQ was 7.716 ?M. For DA, the linear range was 0-50 ?M, the LoD was 0.298 ?M, and the
LoQ was 0.905 ?M, while glucose was not detected. Multi-analyte testing showed signal
interference among peak currents of the analytes, affecting the calibration plot values and
reducing the biosensor's performance in simultaneous analyte detection. The
SPCE/GQDs@Nafion can be used to detect AA, UA, and AC in all body fluid samples, but only
detect DA in urin samples. This study demonstrates that SPCE modification with GQDs improves
the performance of electrochemical biosensors for multi-analyte detection, though further
research is needed to address signal interference in multi-analyte testing. |
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