Patent application number | Description | Published |
20100163759 | RADIATION SENSOR WITH PHOTODIODES BEING INTEGRATED ON A SEMICONDUCTOR SUBSTRATE AND CORRESPONDING INTEGRATION PROCESS - An embodiment relates to a sensor integrated on a semiconductor substrate and comprising at least one first and second photodiode including at least one first and one second p-n junction made in such a semiconductor substrate as well as at least one first and one second antireflection coating made on top of such a first and second photodiode. At least one antireflection coating of such a first and second photodiode comprises at least one first and one second different antireflection layer to make a double layer antireflection coating suitable for obtaining for the corresponding photodiode a responsivity peak at a predetermined wavelength of an optical signal incident on the sensor. An embodiment also refers to an integration process of such a sensor, as well as to an ambient light sensor made with such a sensor. | 07-01-2010 |
20110122485 | ELECTRICALLY PUMPED LATERAL EMISSION ELECTROLUMINESCENT DEVICE INTEGRATED IN A PASSIVE WAVEGUIDE TO GENERATE LIGHT OR AMPLIFY A LIGHT SIGNAL AND FABRICATION PROCESS - An electrically pumped lateral emission electroluminescent device may include a slotted waveguide including a top silicon layer having a thickness between 150 nm and 300 nm and a refraction index associated therewith, and a bottom silicon layer having a thickness between 150 nm and 300 nm and a refraction index associated therewith. A core layer may include silicon oxide between the top and bottom layers and a thickness less than 70 nm. A core layer refraction index may be greater than each of the top and bottom layer refraction indices. A core layer portion may be in a direction of light propagation and may be doped with erbium, and may include silicon nanocrystals. A portion of each of the top and bottom layers may coincide with the core layer portion and may be doped so that the top and bottom layer portions are electrically conductive to define top and bottom plates. | 05-26-2011 |
20130004952 | CARTRIDGE FOR BIOCHEMICAL ANALYSES, SYSTEM FOR BIOCHEMICAL ANALYSES, AND METHOD OF CARRYING OUT A BIOCHEMICAL PROCESS - A cartridge for biochemical analyses includes a support, a structure, which is set on the support and contains wells for receiving a solution, and photodetectors on the support, in positions corresponding to respective wells. | 01-03-2013 |
20130004954 | ANALYZER FOR BIOCHEMICAL ANALYSES AND METHOD OF DETERMINING CONCENTRATIONS OF FLUORESCENT SUBSTANCES IN A SOLUTION - An analyzer for biochemical analyses includes a seat for receiving a recipient. A first light source and a second light source illuminate the recipient with a luminous radiation, respectively, in a first excitation band and in a second excitation band, including a first excitation wavelength and a second excitation wavelength of fluorophores of a first type and of a second type. A first image sensor and a second image sensor are oriented so as to receive light emitted by fluorophores contained in the recipient and are, respectively, provided with a first detection filter and a second detection filter, having, respectively, a first detection passband and a second detection passband, including, respectively, a first emission wavelength and a second emission wavelength of the fluorophores of the first type and of the second type. | 01-03-2013 |
20130264949 | SENSOR COMPRISING AT LEAST A VERTICAL DOUBLE JUNCTION PHOTODIODE, BEING INTEGRATED ON A SEMICONDUCTOR SUBSTRATE AND CORRESPONDING INTEGRATION PROCESS - An embodiment relates to a sensor being integrated on a semiconductor substrate and comprising at least a vertical double-junction photodiode, in turn comprising at least one first and one second p-n junction formed in said semiconductor substrate, as well as at least an anti-reflection coating formed on said photodiode. Said at least one anti-reflection coating comprises at least one first and one second different anti-reflection layer being suitable to obtain a responsivity peak in correspondence with a predetermined wavelength of an incident optical signal on said sensor. An embodiment also relates to an integration process of such a sensor, as well as to an ambient light sensor made by means of such a sensor. | 10-10-2013 |
20130309803 | RADIATION SENSOR WITH PHOTODIODES BEING INTEGRATED ON A SEMICONDUCTOR SUBSTRATE AND CORRESPONDING INTEGRATION PROCESS - An embodiment relates to a sensor integrated on a semiconductor substrate and comprising at least one first and second photodiode including at least one first and one second p-n junction made in such a semiconductor substrate as well as at least one first and one second antireflection coating made on top of such a first and second photodiode. At least one antireflection coating of such a first and second photodiode comprises at least one first and one second different antireflection layer to make a double layer antireflection coating suitable for obtaining for the corresponding photodiode a responsivity peak at a predetermined wavelength of an optical signal incident on the sensor. An embodiment also refers to an integration process of such a sensor, as well as to an ambient light sensor made with such a sensor. | 11-21-2013 |
20140291152 | MICROREACTOR AND METHOD FOR LOADING A LIQUID - A microreactor includes: a substrate ( | 10-02-2014 |
20150140562 | LAB ON CHIP IMAGE ANALYSIS - An optical analyzer, configured to receiving a cartridge for biochemical analyses including a plurality of wells, and carrying out fluorescence analysis of the cartridge, in particular of the wells. The analyzer comprises a control unit (microprocessor and memory) configured to: (a) acquiring an image associated to the fluorescence emitted by the cartridge; (b) identifying, in the image, pixels belonging to boundary lines of the wells by generating a black and white binary image; (c) recognizing, between the geometrical shapes identified in step (b), the ones that best approximate a reference geometrical shape identifying an ideal well; (d) acquiring, from the starting image, values of light intensity only in portions of the image itself that in turn correspond to the regions recognized in step (c); and (e) evaluating a state of advance and/or a result of the biochemical analysis on the basis of the values of light intensity acquired in step (d). | 05-21-2015 |
20150140563 | LAB ON CHIP CARTRIDGE - A cartridge for an optical analysis, including a supporting body, having a first face and a second face opposite to one another; a plurality of wells adapted to receive a biological solution to be analyzed, the wells extending in the supporting body on the first face; at least one biocompatible layer extending inside each well; an anti-reflection layer extending on the first face outside the wells; and a reflection layer extending inside each well. Methods of using same are also provided. | 05-21-2015 |