Abstract: Embodiments provide detection systems and methods for detecting the presence of a nucleic acid in one or more samples. In a detection method, a sample and one or more nucleic acid probes are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of a nucleic acid in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: An electronic device for supporting a virtual keyboard is provided. The electronic device includes an interface unit configured to receive a touch input and display the virtual keyboard, and a controller configured to generate a control point based on calibration points, the calibration points being included in a first set of calibration points for configuration of the virtual keyboard, the control point being movably disposed on the interface unit relative to the first set of calibration points, and generate a graphical representation of the virtual keyboard on the interface unit based on the control point, the virtual keyboard being adjustable relative to movement of the control point in a direction of the second set of calibration points.

Abstract: Embodiments provide detection systems and methods for detecting the presence of a nucleic acid in one or more samples. In a detection method, a sample and one or more nucleic acid probes are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of a nucleic acid in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: Embodiments as disclosed herein may include a sensor including a luminophor exposed to a fluid flow path. The luminophor may emit light in response to illumination by an excitation light source. The magnitude of light emitted by the luminophor in response to illumination may be determined. It can be determined if this magnitude is within a threshold of the baseline magnitude and an alarm state set based on this determination. This alarm state may indicate that the luminophor has reached an end-of-life state or otherwise should be replaced.

Abstract: Embodiments provide mercury detection systems and methods for detecting the presence of mercury ions in one or more samples. In a detection method, a sample and TPET2 molecules are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of mercury ions in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: Embodiments of the present invention relate to systems, methods and devices for the detection of nucleic acids. Some embodiments relate to portable devices comprising nanochannels for efficient detection of a nucleic acid comprising a target polynucleotide sequence in a sample, and use thereof. More embodiments include detection methods in which a sample and one or more nucleic acid probes are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of a nucleic acid in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: Embodiments as disclosed herein may include a sensor including a luminophor exposed to a fluid flow path. The luminophor may emit light in response to illumination by an excitation light source. The magnitude of light emitted by the luminophor in response to illumination may be determined. It can be determined if this magnitude is within a threshold of the baseline magnitude and an alarm state set based on this determination. This alarm state may indicate that the luminophor has reached an end-of-life state or otherwise should be replaced.

Abstract: An electronic device for supporting a virtual keyboard is provided. The electronic device includes an interface unit configured to receive a touch input and display the virtual keyboard, and a controller configured to generate a control point based on calibration points, the calibration points being included in a first set of calibration points for configuration of the virtual keyboard, the control point being movably disposed on the interface unit relative to the first set of calibration points, and generate a graphical representation of the virtual keyboard on the interface unit based on the control point, the virtual keyboard being adjustable relative to movement of the control point in a direction of the second set of calibration points.

Abstract: Embodiments of a dissolved oxygen sensor are disclosed herein. Embodiments as disclosed herein may include a window of optically transparent material disposed in an opening in a fluid flow path, where a luminophor is attached to the side of the window exposed to the fluid in the flow path. An optical probe may be disposed opposite the window from the fluid flow path on an axis at an angle to the window fluid flow path. The optical probe includes an excitation light source for illumination of the luminophor and a reference light source. An optical reception guide is configured to conduct light from the luminophor to a photodiode adjacent to the end of the optical reception guide distal the window when the luminophor is illuminated by the excitation light source. The optical probe is configured to determine a measure of oxygen concentration of the fluid in the flow path.

Abstract: Embodiments provide analyte detection systems for detecting the presence of one or more analytes in one or more samples. An exemplary detection system includes at least one channel for accommodating a sample and a sensor compound, the channel having a width and a length that is significantly greater in dimension than the width. An exemplary detection system includes an analyte detection circuit programmed or configured to detect one or more electrical properties along at least a portion of the length of the channel to determine whether the channel contains an analyte of interest.

Abstract: Embodiments provide detection systems and methods for detecting the presence of a nucleic acid in one or more samples. In a detection method, a sample and one or more nucleic acid probes are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of a nucleic acid in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.

Abstract: Embodiments provide mercury detection systems and methods for detecting the presence of mercury ions in one or more samples. In a detection method, a sample and TPET2 molecules are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of mercury ions in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: Embodiments provide analyte detection methods, techniques and processes for detecting the presence of one or more analytes in one or more samples. In a detection method, a sample and a sensor compound is introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of an analyte in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: Embodiments provide silver detection systems and methods for detecting the presence of silver ions in one or more samples. In a detection method, a sample and TPEA2 molecules are introduced into a channel. A first potential difference is applied across the length of the channel in a first direction, and a first electrical property value is detected. Subsequently, a second potential difference is applied across the length of the channel in a second opposite direction, and a second electrical property value is detected. Presence or absence of silver ions in the channel is determined based on a comparison between the first and second electrical property values.

Abstract: Embodiments provide analyte detection systems for detecting the presence of one or more analytes in one or more samples. An exemplary detection system includes at least one channel for accommodating a sample and a sensor compound, the channel having a width and a length that is significantly greater in dimension than the width. An exemplary detection system includes an analyte detection circuit programmed or configured to detect one or more electrical properties along at least a portion of the length of the channel to determine whether the channel contains an analyte of interest.

Abstract: Embodiments of a dissolved oxygen sensor are disclosed herein. Embodiments as disclosed herein may include a window of optically transparent material disposed in an opening in a fluid flow path, where a luminophor is attached to the side of the window exposed to the fluid in the flow path. An optical probe may be disposed opposite the window from the fluid flow path on an axis at an angle to the window fluid flow path. The optical probe includes an excitation light source for illumination of the luminophor and a reference light source. An optical reception guide is configured to conduct light from the luminophor to a photodiode adjacent to the end of the optical reception guide distal the window when the luminophor is illuminated by the excitation light source. The optical probe is configured to determine a measure of oxygen concentration of the fluid in the flow path.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.