Abstract: Embodiments of a nanotip sensor for detecting and identifying chemical or biological particulates in a sample are disclosed. The nanotip sensor may include a plurality of nanotips, each with a cathode, an anode, and a gap between the cathode and the anode. An adsorbed particulate from the sample may bridge the gap between the cathode and the anode, forming an electrical circuit. A conductive spectrum of the particulates in the sample that are adsorbed onto the nanotips of the sensor may be determined, and by comparing the conductive spectrum of the sample with conductive spectrums of known particulates, one or more specific particulates contained in the sample may be detected and identified. Techniques to augment the specificity of the sensor and to clean the sensor for re-use are disclosed. Embodiments of systems and methods that use the nanotip sensor to detect chemical and biological particulates are disclosed.

Abstract: Embodiments of a nanotip sensor for detecting and identifying chemical or biological particulates in a sample are disclosed. The nanotip sensor may include a plurality of nanotips, each with a cathode, an anode, and a gap between the cathode and the anode. An adsorbed particulate from the sample may bridge the gap between the cathode and the anode, forming an electrical circuit. A conductive spectrum of the particulates in the sample that are adsorbed onto the nanotips of the sensor may be determined, and by comparing the conductive spectrum of the sample with conductive spectrums of known particulates, one or more specific particulates contained in the sample may be detected and identified. Techniques to augment the specificity of the sensor and to clean the sensor for re-use are disclosed. Embodiments of systems and methods that use the nanotip sensor to detect chemical and biological particulates are disclosed.

Abstract: Embodiments of a nanotip sensor for detecting and identifying chemical or biological particulates in a sample are disclosed. The nanotip sensor may include a plurality of nanotips, each with a cathode, an anode, and a gap between the cathode and the anode. An adsorbed particulate from the sample may bridge the gap between the cathode and the anode, forming an electrical circuit. A conductive spectrum of the particulates in the sample that are adsorbed onto the nanotips of the sensor may be determined, and by comparing the conductive spectrum of the sample with conductive spectrums of known particulates, one or more specific particulates contained in the sample may be detected and identified. Techniques to augment the specificity of the sensor and to clean the sensor for re-use are disclosed. Embodiments of systems and methods that use the nanotip sensor to detect chemical and biological particulates are disclosed.