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Wykaz obszarów badawczych związanych z tagiem Elektronika-drukowana:

#	Obszar badawczy	Dziedzina naukowa
1	My scientific are of interests is electronics technology and additive techniques for structural and printed electronics. In my professional work I deal with the development and investigation of the properties of composite materials with the addition of functional phase in the form of carbon nanotubes, graphene platelets, metal and ceramic powders, phosphors, catalysts and other types of functional fillers. Important in the development of these materials is the determination of the relationship between the type and degree of functional phase filling in the composite and the electrical, optical, mechanical, thermal and other properties important for electronic applications. Utilised additive techniques FDM, SLA, BinderJet and SLS, as well as ink-jet, aerosol-jet and screen printing. Potential applications include temperature, pressure, strain and electrochemical sensors, antennas and rectennas, thermoelectric structures, printed battries and supercapacitors, 3D printed magnets and more. Promotor: Ph.D., D.Sc. Marcin Słoma Keywords: Elektronika drukowana \| Elektronika strukturalna \| Kompozyty \| Nanomateriały \| Pozyskiwanie energii odpadowej \| Techniki addytywne \|
2	Printed Electronics, Textronics, Packaging, Biomedical sensors Promotor: prof. Małgorzata Jakubowska Keywords: Elektronika drukowana \| Montaż niskotemperaturowy \| Tekstronika \|
3	The evolutionarily directed affinity of nucleic acids and antibodies toward the corresponding analytes (complementary sequences, antigens) makes them applicable, among other things, as receptors for biosensing layers of affinity biosensors. Molecular recognition occurring in several nanometer interfacial space (surface/solution) translates into a very strong response of biological sensors and obtaining low detection limits or very high sensitivity of conducted analyses. Research topics include the design and analysis of receptor layers of affinity biosensors (nucleic acids, including aptamers and antibodies) as well as the design of ready-to-use sensor solutions, including those manufactured using substrates in printed electronics technology. Such solutions, due to a high degree of miniaturization, the ability to simultaneously detection up to a dozen analytes, low cost or freedom in production scalability, have a high degree of application through integration into modern microfluidic devices and ultimately into POC type diagnostic tools. Promotor: Ph.D., D.Sc. Robert Ziółkowski Keywords: Biosensory \| Diagnostyka medyczna \| Elektrochemia \| Elektronika drukowana \| Biosensors \| Electrochemistry \| Printed electronics technology \| Affinity \| POC devices \| SPR \| QCM \| Medical diagnostics \| Powinowactwo \| Urządzenia POC \|

Obszar badawczy

Dziedzina naukowa

My scientific are of interests is electronics technology and additive techniques for structural and printed electronics. In my professional work I deal with the development and investigation of the properties of composite materials with the addition of functional phase in the form of carbon nanotubes, graphene platelets, metal and ceramic powders, phosphors, catalysts and other types of functional fillers. Important in the development of these materials is the determination of the relationship between the type and degree of functional phase filling in the composite and the electrical, optical, mechanical, thermal and other properties important for electronic applications. Utilised additive techniques FDM, SLA, BinderJet and SLS, as well as ink-jet, aerosol-jet and screen printing. Potential applications include temperature, pressure, strain and electrochemical sensors, antennas and rectennas, thermoelectric structures, printed battries and supercapacitors, 3D printed magnets and more.

Promotor: Ph.D., D.Sc. Marcin Słoma
Keywords: Elektronika drukowana | Elektronika strukturalna | Kompozyty | Nanomateriały | Pozyskiwanie energii odpadowej | Techniki addytywne |

Printed Electronics, Textronics, Packaging, Biomedical sensors

Promotor: prof. Małgorzata Jakubowska
Keywords: Elektronika drukowana | Montaż niskotemperaturowy | Tekstronika |

The evolutionarily directed affinity of nucleic acids and antibodies toward the corresponding analytes (complementary sequences, antigens) makes them applicable, among other things, as receptors for biosensing layers of affinity biosensors. Molecular recognition occurring in several nanometer interfacial space (surface/solution) translates into a very strong response of biological sensors and obtaining low detection limits or very high sensitivity of conducted analyses. Research topics include the design and analysis of receptor layers of affinity biosensors (nucleic acids, including aptamers and antibodies) as well as the design of ready-to-use sensor solutions, including those manufactured using substrates in printed electronics technology. Such solutions, due to a high degree of miniaturization, the ability to simultaneously detection up to a dozen analytes, low cost or freedom in production scalability, have a high degree of application through integration into modern microfluidic devices and ultimately into POC type diagnostic tools.

Promotor: Ph.D., D.Sc. Robert Ziółkowski
Keywords: Biosensory | Diagnostyka medyczna | Elektrochemia | Elektronika drukowana | Biosensors | Electrochemistry | Printed electronics technology | Affinity | POC devices | SPR | QCM | Medical diagnostics | Powinowactwo | Urządzenia POC |