Sensor and Biosensor
RESEARCH FOCUS
We develop advanced sensors for biomedical, environmental, and energy applications using semiconductor and carbon nanomaterials. Our highly sensitive systems support diagnostics, monitoring, and authentication, promoting sustainability and human
well-being.
Sensor and Biosensor
RESEARCH FOCUS
We develop advanced sensor and measurement systems for biomedical, environmental, and energy applications. Our sensors leverage semiconductor and carbon nanomaterials to enable highly sensitive optical, electrical, and electrochemical detection. These innovations enhance diagnostics, monitoring, and authentication processes, offering reliable and efficient solutions. Through cutting-edge nanotechnology, we aim to improve sustainability and human well-being.
On-Going Research
Colorimetric Detection Optimization
Paper-based Microfluidic Biosensor
Halal Food Authentication
Preparation and fabrication of biomass-derived nanocellulose paper (exploration of Indonesia vas natural resources)
Ratiometric optimization of reagen, catalyst, and analite for colorimetric detection
Energy and Environmental Sensor
Catalyst of nanocarbon - metallic nanoparticles for enhancing sensitivity of colorimetric detection
Customized optical/colorimetric detection system for multiplex and multiple sampling
Optimized design of separation zone in nanocellulose-based microfluidic paper
Functionalization of biomass-derived nanocellulose paper for tunable hydro/lipophilicity
Electrochemical detection for food authentication
Screen Printed Electrode (SPE) from nano carbon and metal oxide nanoparticle for electrochemical sensor
Transient hot wire measurement system for thermal properties characterization (thermal conductivity and heat capacity)
Exploration of optical signals (colorimetry, fluorescence, Raman scattering) for food authentication
Graphical Abstracts
Smartphone-based electrochemical sensing of propyl gallate in food samples by employing NiFe-Oxide decorated flexible laser-induced graphene electrode
Sustainable Technology Innovations: Optimizing Inverter Selection for Solar PV and Wind Turbine Systems Using Fuzzy MCDM
Electrochemical sensors based on the composite of reduced graphene oxide and a multiwalled carbon nanotube-modified glassy carbon electrode for simultaneous detection of hydroquinone, dopamine, and uric acid
Luminol Electrochemiluminescence and Electrocatalysis by Prussian Blue in Comparison for the Detection of Hydrogen Peroxide
Publications
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