BioMark sensor Research, University of Coimbra
BioMark sensor Research, University of Coimbra
Devoted to the development of new sensing materials targeting a selective recognition of biomolecules and their integration into sensory surfaces for portable detection.
Develops innovative biomimetic materials that are assembled in the form of photonic structures, targeting optical and/or visual detection of biomolecules.
Develops electrochemical biosensors composed of molecularly-imprinted polymers or immunosensors for the detection of disease, environmental or food control related biomolecules.
Develops nanomaterials and biosensors for various health applications.
Develops receptor surfaces of electrochemical nature for neuronal biomarkers
Develops sensing materials for different applications.
Produces biomaterial-based particles for triple-negative breast cancer treatment.
Develops receptor surfaces of optical nature targeting specific molecules.
Develops an optic biosensor based on biomaterials, for extracellular vesicles detection.
Develops self-powered electrochemical biosensors to extracellular vesicle detection.
Develops electrochemical biosensors for detection of viruses found in water.
Develops electrochemical biosensors for detection of viruses found in water.
Develops electrochemical disposable sensors for the detection of extracellular vesicles.
Develops electrochemical biosensors based on biomaterials for detection of glucose.
Develops optical biosensors based on photonic crystals for specific cancer-related biomolecules, making use of biocompatible materials.
Develops new sensing materials by electrospinning
Develops new microfluidic approaches
Development of surfaces to capture aquatic contaminants: bacterial endotoxins .
Develops photonic polymeric materials for integration into biosensors.
Develops surfaces to capture aquatic contaminants: bacterial endotoxins.
Develops electrochemical biosensors with catalytic nanomaterials for glucose detection.
Develops electrochemical biosensors with catalytic nanomaterials for glucose detection.
Development of photonic polymeric materials for integration into biosensors.
Develops temperature sensors based on polymeric materials.
She developed work at CY-Sensors project.
The principal aim was to obtain a photonic-based biosensor for detection of cianobacterial toxins.
Developed immunosensors for the detection of alpha-synuclein associated to neurodegenerative disorders.
She developed work for MingdGAP project.
The objective was to develop a optical biosensors for the detection and quantification of extracellular vesicles related with cancer.
He developed research work in the context of the project Eco2COVID. The main goal was to obtain an electrochemical biosensors for detecting viruses found in water.
She developed optical biosensors based on plastic antibodies for extracellular vesicles detection.
Developed an optic biosensor for extracellular vesicles detection.
She fluorescent proteoliposomes for sensing applications.
She developed work at MindGAP project.
The principal aim was to develop a electrochemical biosensors for targeting extracellular vesicles.
The objective was to develop a MIP-based electrochemical biosensor for the detection of Spike Protein.
The objective was to produce electrochemical biosensors for the detection of alpha-synuclein associated to neurodegenerative disorders, under the scope of OligoFIT project.
She developed electrochemical biosensors for specific proteins and microRNA sequences for environment or disease monitoring.
He developed innovative eletrochemical sensors, based on biomaterials.
He studied electrochemical biosensors composed of molecularly-imprinted polymers for the detection of molecules related to neurodegenerative diseases.
Developed electrochemical biosensors and thermochromic formulations
Develops electrochemical biosensors for extracellular vesicle detection.
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