Add to ORKGDesign and fabrication of electronic biosensors based on field-effect-transistor (FET) devices require understanding of interactions between semiconductor surfaces and organic biomolecules. From this perspective, we review practical considerations for electronic biosensors with emphasis on molecular passivation effects on FET device characteristics upon immobilization of organic molecules and an electrostatic model for FET-based biosensors
The functioning principles of electronic sensors based on organic semiconductor field-effect transis...
The functioning principles of electronic sensors based on organic semiconductor field-effect transis...
The research activity described in the attached dissertation focused on the development, fabrication...
Recent advances in discovering biomarkers for specific diseases, particularly cancers, have necessit...
2015-06-19Researchers have been developing Point‐Of‐Care Testing (POCT) devices over the past decade...
Biofets (biologically active field-effect transistors) are biosensors with a semiconductor transduce...
Biofets (biologically active field-effect transistors) are biosensors with a semiconductor transduce...
Biosensing technologies are required for point-of-care testing (POCT). We determine some physical pa...
Nanocarbon-based field-effect transistor (NC-FET) biosensors are at the forefront of future diagnost...
The purpose of this project is to create and characterize a biosensor based upon a modified Metal Ox...
The purpose of this project is to create and characterize a biosensor based upon a modified Metal Ox...
Interfacing biomaterials to electronic devices is one of most challenging research field that has re...
Field-effect transistor (FET) sensors and in particular their nanoscale variant of silicon nanowire ...
Over the past 15 years, biologically sensitive field-effect-transistors (bioFETs) employing a nanowi...
Over the past 15 years, biologically sensitive field-effect-transistors (bioFETs) employing a nanowi...
The functioning principles of electronic sensors based on organic semiconductor field-effect transis...
The functioning principles of electronic sensors based on organic semiconductor field-effect transis...
The research activity described in the attached dissertation focused on the development, fabrication...
Recent advances in discovering biomarkers for specific diseases, particularly cancers, have necessit...
2015-06-19Researchers have been developing Point‐Of‐Care Testing (POCT) devices over the past decade...
Biofets (biologically active field-effect transistors) are biosensors with a semiconductor transduce...
Biofets (biologically active field-effect transistors) are biosensors with a semiconductor transduce...
Biosensing technologies are required for point-of-care testing (POCT). We determine some physical pa...
Nanocarbon-based field-effect transistor (NC-FET) biosensors are at the forefront of future diagnost...
The purpose of this project is to create and characterize a biosensor based upon a modified Metal Ox...
The purpose of this project is to create and characterize a biosensor based upon a modified Metal Ox...
Interfacing biomaterials to electronic devices is one of most challenging research field that has re...
Field-effect transistor (FET) sensors and in particular their nanoscale variant of silicon nanowire ...
Over the past 15 years, biologically sensitive field-effect-transistors (bioFETs) employing a nanowi...
Over the past 15 years, biologically sensitive field-effect-transistors (bioFETs) employing a nanowi...
The functioning principles of electronic sensors based on organic semiconductor field-effect transis...
The functioning principles of electronic sensors based on organic semiconductor field-effect transis...
The research activity described in the attached dissertation focused on the development, fabrication...