The experimental detection of capacitance variations with a resolution as low as few zeptoFarads (10−21 F) is presented. This is achieved by means of a CMOS ultra-low-noise and wide-bandwidth current sensing circuit, coupled to a lock-in amplifier to perform capacitance and conductance measurements in a frequency range from DC to 1 MHz. The adoption of an integrated implementation, based on an original circuital topology, provides miniaturization and performance improvement. The mm-sized chip can be easily integrated in extremely compact sensing setups. Resolution limits are analyzed in detail and experimentally investigated by means of a mechanical fixture that converts micrometric linear displacement into sub-aF capacitance steps. The exp...
Biomedical sensors use capacitance measurement for a variety of detection applications and capacitan...
We have developed a measurement platform for performing high-frequency AC detection at nanoelectrode...
We describe the realization of a fully-electronic label-free temperature-controlled biosensing platf...
The experimental detection of capacitance variations with a resolution as low as few zeptoFarads (10...
AbstractThe experimental detection of capacitance variations with a resolution as low as few zeptoFa...
A new sensing configuration based on the direct use of the metal input pad of a dedicated CMOS ampl...
This thesis focuses on simple capacitive measurement techniques suitable for integration in CMOS tec...
Capacitance detection is a universal transduction mechanism used in a wide variety of sensors and ap...
Capacitive sensors and their associated readout circuits are well known and have been used in many m...
[[abstract]]Miniaturized complementary metal-oxide semiconductor (CMOS) capacitive sensors presented...
In this paper, an accurate front-end CMOS interface circuit for sensing very small capacitance chang...
The direct tracking of the potential-induced modulation of the double layer capacitance (100 mV bias...
Biomedical sensors use capacitance measurement for a variety of detection applications and capacitan...
We have developed a measurement platform for performing high-frequency AC detection at nanoelectrode...
We describe the realization of a fully-electronic label-free temperature-controlled biosensing platf...
The experimental detection of capacitance variations with a resolution as low as few zeptoFarads (10...
AbstractThe experimental detection of capacitance variations with a resolution as low as few zeptoFa...
A new sensing configuration based on the direct use of the metal input pad of a dedicated CMOS ampl...
This thesis focuses on simple capacitive measurement techniques suitable for integration in CMOS tec...
Capacitance detection is a universal transduction mechanism used in a wide variety of sensors and ap...
Capacitive sensors and their associated readout circuits are well known and have been used in many m...
[[abstract]]Miniaturized complementary metal-oxide semiconductor (CMOS) capacitive sensors presented...
In this paper, an accurate front-end CMOS interface circuit for sensing very small capacitance chang...
The direct tracking of the potential-induced modulation of the double layer capacitance (100 mV bias...
Biomedical sensors use capacitance measurement for a variety of detection applications and capacitan...
We have developed a measurement platform for performing high-frequency AC detection at nanoelectrode...
We describe the realization of a fully-electronic label-free temperature-controlled biosensing platf...