| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 850062000 | APPLICATIONS OF SCANNING-PROBE TECHNIQUES OTHER THAN SPM (EPO) | 7 |
| 20090307809 | SCANNING PROBE MICROSCOPE AND METHOD FOR OPERATING THE SAME - The scanning probe microscope has a primary control loop ( | 12-10-2009 |
| 20090313731 | MOLECULAR MANIPULATOR, A METHOD OF MAKING THE SAME, AND A METHOD OF MOVING A NANOSTRUCTURE - A molecular manipulator includes a light-sensitive molecule, including a double bond, which changes a cis-trans configuration of the double bond in response to illumination by light of a selected wavelength, and a probe, for example, a probe of a scanned-proximity probe microscope, to which the light-sensitive molecule is attached. A method of making the molecular manipulator includes covalently bonding the light-sensitive molecule to the probe. A method of moving a nanostructure includes controllably grasping, moving, and releasing the nanostructure with the molecular manipulator. | 12-17-2009 |
| 20100100991 | Charge-Amp Based Piezoelectric Charge Microscopy (CPCM) Reading of Ferroelectric Bit Charge Signal - A device to detect polarization of a ferroelectric material comprises a probe tip, a charge amplifier electrically connected with the probe tip to convert a charge coupled to the probe tip from the ferroelectric material into an output voltage. The ferroelectric material is oscillated at a reference signal so that a charge is coupled to the probe tip and converted to an output voltage by the charge amplifier. A lock-in amplifier that receives the reference voltage and applies the reference voltage to the output voltage to extract a signal output representing the polarization. | 04-22-2010 |
| 20140196180 | REDOX-ACTIVE STRUCTURES AND DEVICES UTILIZING THE SAME - A device is presented having reversibly changeable and optically readable optical properties. The device comprises a substrate having an electrically conductive surface and carrying a redox-active layer structure. The redox-active layer structure may be a monolayer or a multi-layer structure and is configured to have at least one predetermined electronic property including at least one of electrodensity and oxidation state. The electronic property of the layer structure defines an optical property of the structure thereby determining an optical response of the structure to certain incident light. This at least one electronic property is changeable by subjecting the redox-active layer structure to an electric field or to a redox-active material. The device thus enables effecting a change in said electronic property that results in a detectable change in the optical response of the layer structure. | 07-10-2014 |
| 20140283230 | MICROPROBE AND MICROPROBE MANUFACTURING METHOD - According to an embodiment, a microprobe includes a base and a lever. The base includes a first electrode provided on a surface thereof. The lever is supported by the base and includes a second electrode and a third electrode. The second electrode is connected between the first electrode and the third electrode. The third electrode is formed to project from the second electrode in a first direction in a main surface of the lever. A width of the third electrode in a second direction perpendicular to the first direction in the main surface defines a width of an electrical contact area when a scanning operation is performed by use of the third electrode in a third direction perpendicular to the main surface. | 09-18-2014 |
| 20140338076 | Methods and Apparatuses for Specimen Lift-Out and Circuit Edit Using Needle Arrays - Embodiments of the present invention provide apparatus of restoring probes attached to the manipulator in a control environment (e.g. vacuum chamber of an focus ion beam) without a need to open the vacuum chamber. Another embodiment of the present invention teaches construction and application of various shapes of nanoforks from a nanoneedles array inside a FIB vacuum chamber. In another embodiment, the present invention teaches edition and correction of completed and oxide-coated circuit boards by re-nano-wiring using nanoneedles of a nanoneedles array (as nanowire supply), contained in the same controlled space. In this embodiment, individual nanoneedles in a nanoneedle array are manipulated by a manipulator and placed in such a way to make electrical contact between the desired points. | 11-13-2014 |
| 20150355228 | Build Sequences for Mechanosynthesis - Processes for creating build sequences are described which use computational chemistry algorithms to simulate mechanosynthetic reactions, and which may use the mechanosynthesis process conditions or equipment limitations in these simulations, and which facilitate determining a set of mechanosynthetic reactions that will build an atomically-precise workpiece with a desired degree of reliability. Included are methods for error correction of pathological reactions or avoidance of pathological reactions. Libraries of reactions may be used to reduce simulation requirements. | 12-10-2015 |
| 20090307809 | SCANNING PROBE MICROSCOPE AND METHOD FOR OPERATING THE SAME - The scanning probe microscope has a primary control loop ( | 12-10-2009 |
| 20090313731 | MOLECULAR MANIPULATOR, A METHOD OF MAKING THE SAME, AND A METHOD OF MOVING A NANOSTRUCTURE - A molecular manipulator includes a light-sensitive molecule, including a double bond, which changes a cis-trans configuration of the double bond in response to illumination by light of a selected wavelength, and a probe, for example, a probe of a scanned-proximity probe microscope, to which the light-sensitive molecule is attached. A method of making the molecular manipulator includes covalently bonding the light-sensitive molecule to the probe. A method of moving a nanostructure includes controllably grasping, moving, and releasing the nanostructure with the molecular manipulator. | 12-17-2009 |
| 20100100991 | Charge-Amp Based Piezoelectric Charge Microscopy (CPCM) Reading of Ferroelectric Bit Charge Signal - A device to detect polarization of a ferroelectric material comprises a probe tip, a charge amplifier electrically connected with the probe tip to convert a charge coupled to the probe tip from the ferroelectric material into an output voltage. The ferroelectric material is oscillated at a reference signal so that a charge is coupled to the probe tip and converted to an output voltage by the charge amplifier. A lock-in amplifier that receives the reference voltage and applies the reference voltage to the output voltage to extract a signal output representing the polarization. | 04-22-2010 |
| 20140196180 | REDOX-ACTIVE STRUCTURES AND DEVICES UTILIZING THE SAME - A device is presented having reversibly changeable and optically readable optical properties. The device comprises a substrate having an electrically conductive surface and carrying a redox-active layer structure. The redox-active layer structure may be a monolayer or a multi-layer structure and is configured to have at least one predetermined electronic property including at least one of electrodensity and oxidation state. The electronic property of the layer structure defines an optical property of the structure thereby determining an optical response of the structure to certain incident light. This at least one electronic property is changeable by subjecting the redox-active layer structure to an electric field or to a redox-active material. The device thus enables effecting a change in said electronic property that results in a detectable change in the optical response of the layer structure. | 07-10-2014 |
| 20140283230 | MICROPROBE AND MICROPROBE MANUFACTURING METHOD - According to an embodiment, a microprobe includes a base and a lever. The base includes a first electrode provided on a surface thereof. The lever is supported by the base and includes a second electrode and a third electrode. The second electrode is connected between the first electrode and the third electrode. The third electrode is formed to project from the second electrode in a first direction in a main surface of the lever. A width of the third electrode in a second direction perpendicular to the first direction in the main surface defines a width of an electrical contact area when a scanning operation is performed by use of the third electrode in a third direction perpendicular to the main surface. | 09-18-2014 |
| 20140338076 | Methods and Apparatuses for Specimen Lift-Out and Circuit Edit Using Needle Arrays - Embodiments of the present invention provide apparatus of restoring probes attached to the manipulator in a control environment (e.g. vacuum chamber of an focus ion beam) without a need to open the vacuum chamber. Another embodiment of the present invention teaches construction and application of various shapes of nanoforks from a nanoneedles array inside a FIB vacuum chamber. In another embodiment, the present invention teaches edition and correction of completed and oxide-coated circuit boards by re-nano-wiring using nanoneedles of a nanoneedles array (as nanowire supply), contained in the same controlled space. In this embodiment, individual nanoneedles in a nanoneedle array are manipulated by a manipulator and placed in such a way to make electrical contact between the desired points. | 11-13-2014 |
| 20150355228 | Build Sequences for Mechanosynthesis - Processes for creating build sequences are described which use computational chemistry algorithms to simulate mechanosynthetic reactions, and which may use the mechanosynthesis process conditions or equipment limitations in these simulations, and which facilitate determining a set of mechanosynthetic reactions that will build an atomically-precise workpiece with a desired degree of reliability. Included are methods for error correction of pathological reactions or avoidance of pathological reactions. Libraries of reactions may be used to reduce simulation requirements. | 12-10-2015 |
