Intelligence technologies aim at providing sense organs to machines such as artificial nose or tongue. Inspired by chemically-sensitive devices and antenna couplers, the Insulated Substrate Impedance Transducer (ISIT) reacts to neighboring electro-active targets by changes in its built-in properties, measured through interface electrodes. Exhaustive comprehension of their interactions with medium and substrate is key to ISIT operation and embodiments efficiency. Among simulation approaches, versatile numerical methods, handy conformal analyses and other partial capacitances yet require computational tuning while loosely ensuring previsions quality. The present work then revisits compact modeling of the ideal though essential 2D cases, planar i...
Background: Ion Sensitive Field Effect Transistors (ISFETs) are one of the primitive structures for ...
Impedance spectroscopy has been proven a powerful tool for reaching high sensitivity in sensor array...
This paper proposes the design of a biosensor to characterize the dielectric and conductive properti...
Nanoscaled interdigitated electrode arrays were made with deep UV lithography. Electrode widths and ...
Arrays of microelectrodes for electrochemical biosensing are commonly fabricated on standard silicon...
Impedance based, planar chemical microsensors are the easiest sensors to integrate with electronics....
Electrochemical Impedance Spectroscopy (EIS) is a powerful measurement technique used by scientists ...
Electrode-to-cell/tissue interfaces with high biocompatibility, low impedance, and long-term chemica...
In this paper, we describe a point-of-care biosensor design. The uniqueness of our design is in its ...
We propose a novel integrated impedance measurement system with disposable thin-film electrodes. Mos...
This paper is concerned with a physical model of an interdigitated sensor working in a frequency ran...
New technologies tend to integrate physicochemical sensors measuring their close environment to extr...
This paper presents a simple mathematical model to predict the impedance data acquired by electric c...
The finite element modeling is used to investigate the frequency behavior of an Inter-Digitated micr...
Field-effect transistor (FET) sensors and in particular their nanoscale variant of silicon nanowire ...
Background: Ion Sensitive Field Effect Transistors (ISFETs) are one of the primitive structures for ...
Impedance spectroscopy has been proven a powerful tool for reaching high sensitivity in sensor array...
This paper proposes the design of a biosensor to characterize the dielectric and conductive properti...
Nanoscaled interdigitated electrode arrays were made with deep UV lithography. Electrode widths and ...
Arrays of microelectrodes for electrochemical biosensing are commonly fabricated on standard silicon...
Impedance based, planar chemical microsensors are the easiest sensors to integrate with electronics....
Electrochemical Impedance Spectroscopy (EIS) is a powerful measurement technique used by scientists ...
Electrode-to-cell/tissue interfaces with high biocompatibility, low impedance, and long-term chemica...
In this paper, we describe a point-of-care biosensor design. The uniqueness of our design is in its ...
We propose a novel integrated impedance measurement system with disposable thin-film electrodes. Mos...
This paper is concerned with a physical model of an interdigitated sensor working in a frequency ran...
New technologies tend to integrate physicochemical sensors measuring their close environment to extr...
This paper presents a simple mathematical model to predict the impedance data acquired by electric c...
The finite element modeling is used to investigate the frequency behavior of an Inter-Digitated micr...
Field-effect transistor (FET) sensors and in particular their nanoscale variant of silicon nanowire ...
Background: Ion Sensitive Field Effect Transistors (ISFETs) are one of the primitive structures for ...
Impedance spectroscopy has been proven a powerful tool for reaching high sensitivity in sensor array...
This paper proposes the design of a biosensor to characterize the dielectric and conductive properti...