摘要:
A detection method of detecting analytes of interest which are present in a liquid. The detection method including the steps of forming drops of liquid on a first surface by capillary breaking of a finger of liquid, which is initially formed by liquid dielectrophoresis. The thus formed drops each come into contact with a different detection surface, which is arranged facing the first surface. Analytes of interest which are present in each of the drops are detected at the corresponding detection surface.
摘要:
A detection method of detecting analytes of interest which are present in a liquid. The detection method including the steps of forming drops of liquid on a first surface by capillary breaking of a finger of liquid, which is initially formed by liquid dielectrophoresis. The thus formed drops each come into contact with a different detection surface, which is arranged facing the first surface. Analytes of interest which are present in each of the drops are detected at the corresponding detection surface.
摘要:
The invention provides a device for the gravimetric detection of particles in a fluid medium, simultaneously providing a high quality factor, easier operating conditions, small size and low production costs. For this purpose, the subject of the invention is a device for the gravimetric detection of particles in a fluid medium, comprising a flat electromechanical oscillator (1), means for supporting the oscillator and means for actuating said oscillator, said means being designed to ensure that the oscillator (1) vibrates in its plane, said device further including a channel (4) for passage of the fluid, said channel being in fluid communication with a through-cavity (1b) made in said oscillator.
摘要:
The invention relates to a detection device of small size, allowing direct in situ detection of particles with no labelling, enabling the particles to be rapidly analysed, and having both a specificity and a sensitivity that are at least equivalent to the existing devices. In one embodiment, the invention provides a device havinga nanowire, intended for interacting with the particles of interest, which is suspended between two anchors that define a source and a drain, the source and the drain are configured to be connected to an AC voltage generator and to a DC voltage generator, respectively, in order to generate a first input signal;an excitation electrode, placed laterally facing the nanowire and configured to be connected to an AC voltage generator, in order to generate a second input signal; anda measurement electrode placed opposite the excitation electrode relative to the nanowire and generating a single output signal representative of the particles of interest.
摘要:
The invention provides a device for the gravimetric detection of particles in a fluid medium, comprising a flat electromechanical oscillator (1), means for supporting the oscillator, means (15a, 15b, 15c, 15d) for actuating said oscillator and, on either side of the plane of the oscillator (1), two cavities (3, 5) enabling the oscillator (1) to vibrate when it is activated by the actuation means (15a, 15b, 15c, 15d), characterized in that at least one of the two cavities (3, 5) forms an integral part of a channel (2, 4) for the passage of a fluid over at least one of the faces (1a, 1b) of the oscillator and in that said actuation means (15a, 15b, 15c, 15d) take the form of at least one electrode (15a, 15b, 15c, 15d) lying in the same plane as that of the electromechanical oscillator and at a defined distance (g) from the oscillator, so as to ensure that the oscillator vibrates in its plane.
摘要:
The invention provides a device for the gravimetric detection of particles in a fluid medium, comprising a flat electromechanical oscillator (1), means for supporting the oscillator, means (15a, 15b, 15c, 15d) for actuating said oscillator and, on either side of the plane of the oscillator (1), two cavities (3, 5) enabling the oscillator (1) to vibrate when it is activated by the actuation means (15a, 15b, 15c, 15d), characterized in that at least one of the two cavities (3, 5) forms an integral part of a channel (2, 4) for the passage of a fluid over at least one of the faces (1a, 1b) of the oscillator and in that said actuation means (15a, 15b, 15c, 15d) take the form of at least one electrode (15a, 15b, 15c, 15d) lying in the same plane as that of the electromechanical oscillator and at a defined distance (g) from the oscillator, so as to ensure that the oscillator vibrates in its plane.
摘要:
The present invention relates to a method for functionalizing fluid lines (1b) in a micromechanical device, the walls of which include an opaque layer. For this purpose, the invention provides a method for functionalizing a micromechanical device provided with a fluid line including a peripheral wall (5) having a surface (2) outside the line and an inner surface (3) defining a space (1b) in which a fluid can circulate, the peripheral wall at least partially including a silicon layer (5a). The method includes the following steps: a) providing a device, the peripheral wall (5) of which at least partially includes a silicon layer (5a) having, at least locally, a thickness (e) of more than 100 nm and less than 200 nm, advantageously of 160 to 180 nm; c) silanizing at least the inner surface of the fluid line; d) the localized, selective photo-deprotection on at least the inner surface of the silanized device by exposing the peripheral wall (5) at the point at which said wall has a thickness (e) of more than 100 nm and less than 200 nm, advantageously of 160 to 180 nm.
摘要:
The invention provides a device for the gravimetric detection of particles in a fluid medium, simultaneously providing a high quality factor, easier operating conditions, small size and low production costs. For this purpose, the subject of the invention is a device for the gravimetric detection of particles in a fluid medium, comprising a flat electromechanical oscillator (1), means for supporting the oscillator and means for actuating said oscillator, said means being designed to ensure that the oscillator (1) vibrates in its plane, said device further including a channel (4) for passage of the fluid, said channel being in fluid communication with a through-cavity (1b) made in said oscillator.
摘要:
The present invention relates to a method for functionalising fluid lines (1b) in a micromechanical device, the walls of which include an opaque layer. For this purpose, the invention provides a method for functionalising a micromechanical device provided with a fluid line including a peripheral wall (5) having a surface (2) outside the line and an inner surface (3) defining a space (1b) in which a fluid can circulate, the peripheral wall at least partially including a silicon layer (5a). The method includes the following steps: a) providing a device, the peripheral wall (5) of which at least partially includes a silicon layer (5a) having, at least locally, a thickness (e) of more than 100 nm and less than 200 nm, advantageously of 160 to 180 nm; c) silanising at least the inner surface of the fluid line; d) the localised, selective photo-deprotection on at least the inner surface of the silanised device by exposing the peripheral wall (5) at the point at which said wall has a thickness (e) of more than 100 nm and less than 200 nm, advantageously of 160 to 180 nm.
摘要:
The invention relates to a detection device of small size, allowing direct in situ detection of particles with no labelling, enabling the particles to be rapidly analysed, and having both a specificity and a sensitivity that are at least equivalent to the existing devices. In one embodiment, the invention provides a device having a nanowire, intended for interacting with the particles of interest, which is suspended between two anchors that define a source and a drain, the source and the drain are configured to be connected to an AC voltage generator and to a DC voltage generator, respectively, in order to generate a first input signal; an excitation electrode, placed laterally facing the nanowire and configured to be connected to an AC voltage generator, in order to generate a second input signal; and a measurement electrode placed opposite the excitation electrode relative to the nanowire and generating a single output signal representative of the particles of interest.