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Buono
Annamaria Buono, Legnagio Mi IT
| Patent application number | Description | Published |
|---|---|---|
| 20100167036 | SOLID POLYMERIC MATERIALS FOR DETECTION, TRANSFER, AMPLIFICATION AND MEMORY OF CHIRALITY OF OPTICALLY ACTIVE COMPOUNDS - Solid polymeric materials for detection, transfer, amplification and memory of chirality of optically active compounds are described. These materials not only are able to absorb also traces of volatile organic compounds (both chiral and achiral) prevailingly as guest of a nanoporous crystalline phase, but for the case of chiral guests are also able to transfer and amplify their chirality, producing intense phenomena of induced circular dichroism (ICD). This induced dichroism remains stable also after chiral guest removal, as well as after temperature increases at least up to 250° C. The solid polymeric materials of the present invention can find applications in sensorics of optically active molecules as well as in systems for storage of data. | 07-01-2010 |
Frederic Buono, Franklin Park, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20100056792 | Process for Synthesizing Substituted Isoquinolines - The present disclosure generally relates to a process for synthesizing optionally substituted 1-chloro-4-methoxyisoquinolines. The present disclosure also relates to intermediates useful in this process. | 03-04-2010 |
Robert N. Buono, Ringwood, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20100109608 | AUTONOMOUS BALANCING OF SERIES CONNECTED CHARGE STORAGE DEVICES - A charge balancing circuit implemented within a charge storage device (cell) in a series connected charge storage unit (battery) made up of a plurality of cells. The charge balancing circuit may utilize a controller to sense the voltage in the cell it is implemented therein and the cells adjacent thereto. If the voltage of the current cell exceeds a threshold voltage and is greater than at least one adjacent cell the current cell can transfer charge to the adjacent cell having the lowest voltage. The transfer of the charge is done with a switching network that extracts current from the current cell and then transfers the current to the adjacent cell having the lowest voltage. The switching network may utilize switches and a current storage device (inductor) to transfer the charge. The controller may activate different switches based on which adjacent cell has the lowest voltage. | 05-06-2010 |
Ronald J. Buono, Cave Creek, AZ US
| Patent application number | Description | Published |
|---|---|---|
| 20100022887 | Method for imaging intracavitary blood flow patterns - A method for identifying blood flow patterns based on contrast-enhanced ultrasound imaging and, in particular, echocardiography. The method includes indicating a blood flow type in the cavity through which imaged blood is flowing by correlating the identified blood flow pattern with a selected pattern. Further, a report indicative of a condition of the cavity can be generated based on the indicated blood flow type. | 01-28-2010 |
Stefano Buono, Thoiry FR
| Patent application number | Description | Published |
|---|---|---|
| 20110196234 | METHOD AND DEVICE OF DETECTING, LOCATING AND/OR ANALYZING A RADIOACTIVE SOURCE(S) IN A MATERIAL, E.G. A BIOLOGICAL TISSUE - The invention relates to detection of radiations by means of any appropriate devices, particularly those comprising small probes used e.g. in diagnostics or in surgery, or in biomedical or pharmacological research. The aim of the invention is to improve the performance of probes and their working methods in terms i.a of background, miniaturization sensitivity and selectivity. In this respect, the invention concerns a Method of detecting, locating and/or analyzing a radioactive source(s) emitting charged or neutral particles in a material, particularly a biological tissue, consisting essentially in using scintillating fiber(s) having a ratio L (Length)/r (range of the particles emitted by the source)≧2, d (diameter)/r≦5, and L/d≧2; scanning the surface of the material with the detection rod; collecting by means of a SiPM, the scintillation light output (SL | 08-11-2011 |
Tommaso Buono, Terni IT
| Patent application number | Description | Published |
|---|---|---|
| 20100126261 | Method for Measuring the Instantaneous Flow of an Injector for Gaseous Fuels - The instantaneous flow of an injector for gaseous fuels is calculated by measuring the pressure and temperature of a test gas injected inside a measuring chamber connected to the external environment in a continuous manner through a given outlet section and using a calculation formula, in which the instantaneous flow of the injector is a function of on the measured pressure, of a first factor as a function of a volume of the measuring chamber and the measured temperature, and of a second factor as a function of the measured temperature and the outlet section. | 05-27-2010 |