Abstract: An electrometer includes a sensing module and a control module. The sensing module includes an electrostatic sensing element. The electrostatic sensing element includes two opposite ends. Each end of the electrostatic sensing element is electrically connected to the control module. When an object with electrostatic charge is near but does not touch the electrostatic sensing element, the resistance of the electrostatic sensing element can be changed. The control module electrically connect to the electrostatic sensing element, the control module measures the resistance variation ?R of the electrostatic sensing element and converts the resistance variation ?R into the static electricity potential.

Abstract: A device for imaging one dimension nanomaterials is provided. The device includes an optical microscope with a liquid immersion objective, a laser device, and a spectrometer. The laser device is configured to provide an incident light beam with a continuous spectrum. The spectrometer is configured to obtain spectral information of the one dimensional nanomaterials.

Abstract: A method for preventing or treating nosocomial diseases, e.g., diseases caused by Pseudomonas aeruginosa, is provided. The method includes administering to a susceptible human subject a specified dose of a bispecific antibody that that specifically binds Pseudomonas aeruginosa Psl and PcrV.

Abstract: A method for imaging one dimension nanomaterials is provided. Firstly, one dimension nanomaterials sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the one dimensional nanomaterials sample is immersed in the liquid. Thirdly, the one dimensional nanomaterials sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the one dimensional nanomaterials sample. Fifthly, spectra of the one dimensional nanomaterials sample are measured to obtain chirality of the one dimensional nanomaterials sample.

Abstract: An electrometer includes a sensing module and a control module. The sensing module includes a plurality of electrostatic sensing elements and a plurality of second electrodes. The plurality of electrostatic sensing elements are single walled carbon nanotubes or few-walled carbon nanotubes. The plurality of electrostatic sensing elements and the plurality of second electrodes are alternately arranged in a series connection. The control module is coupled to the two ends of the series connection and configured to measure a resistance variation ?R of the series connection and convert the resistance variation ?R into a static electricity potential.

Abstract: A method of preparing a fibrous panel including surface treating a mineral wool with a water repellent agent to provide a water-repellent surface treated mineral wool, admixing the water-repellent surface-treated mineral wool with water to provide a slurry, and dewatering and drying the slurry to provide a fibrous panel. A method of preparing a mineral wool having a surface treated with a water repellent agent including contacting a water repellent agent emulsion with a mineral wool and drying the mineral wool, and a method of preparing a water-repellent surface-treated fibrous panel including mineral wool having a surface pre-treated with a water repellent agent are also provided.

Abstract: An electrostatic distribution measuring instrument includes a sensing module and a control module. The sensing module includes a plurality of electrostatic sensing elements electrically insulated from each other. The plurality of electrostatic sensing elements is single walled carbon nanotubes or few-walled carbon nanotubes. The control module is coupled to the sensing module and configured to measure a resistance variation ?R of the sensing module and convert the resistance variation ?R into a static electricity potential.

Abstract: A method for assigning chirality of carbon nanotube is provided. Firstly, carbon nanotube sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the carbon nanotube sample is immersed in the liquid. Thirdly, the carbon nanotube sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the carbon nanotube sample. Fifthly, spectra of the carbon nanotube sample are measured to obtain chirality of the carbon nanotube sample.

Abstract: A semiconductor device made of one or more one-dimensional chains of atoms. The atoms form covalent bonds along the chain with no dangling bonds except at both ends of the chain.

Abstract: A method, computer program product, and system is disclosed for generating an Interactive Voice Response (IVR) system tree. A plurality of IVR system options from the IVR system are received. A first set of selections of the IVR system options are received from the user. A second set of selections of the IVR system are received, comprising at least a second set of subtrees. In response to identifying a plurality of subtrees of the second set of subtrees that are associated with the root node, the identified plurality of subtrees are mapped to the option tree. An IVR combination tree is generated. A visualization IVR combination tree is generated for display, in response to receiving a second user request for access to the IVR system. A target service associated with a user input selection of at least one end node of the visualized IVR combination tree is accessed.

Abstract: A method, computer program product, and system is disclosed for generating an Interactive Voice Response (IVR) system tree. A plurality of IVR system options from the IVR system are received. A first set of selections of the IVR system options are received from the user. A second set of selections of the IVR system are received, comprising at least a second set of subtrees. In response to identifying a plurality of subtrees of the second set of subtrees that are associated with the root node, the identified plurality of subtrees are mapped to the option tree. An IVR combination tree is generated. A visualization IVR combination tree is generated for display, in response to receiving a second user request for access to the IVR system. A target service associated with a user input selection of at least one end node of the visualized IVR combination tree is accessed.

Abstract: A method for improving the oxygen-releasing ability of hemoglobin, hemoglobin variants, recombinant hemoglobin or hemoglobin-based blood substitutes to organs or peripheral tissues in human bodies is disclosed by administering a compound of phthalides to a subject in need thereof. The compound of phthalides is characterized by a phthalide functional group which is represented as Formula I, and forms at least one hydrogen bond with ?Arg141 of hemoglobin, hemoglobin variants, recombinant hemoglobin or hemoglobin-based blood substitutes, stabilizing the ?1/?2 interface of hemoglobin, further stabilizing the oxygenated hemoglobin, hemoglobin variants, recombinant hemoglobin or hemoglobin-based blood substitutes in the low oxygen affinity “T” state and facilitating the oxygen release to the organs or the peripheral tissues.

Abstract: A computer identifies a first participant and a one or more additional participants associated with a collaboration through an electronic communication application that includes messaging content, identifies a first set of one or more keywords within the messaging content between the first participant and the one or more additional participants, retrieves a first set of historical information based at least in part on the first set of one or more keywords, the first participant and the one or more additional participants, generates a first instance of historical results that includes a multi-dimensional cube that graphs the first set of historical information with respect to the first set of one or more keywords, the first participant and the one or more additional participants, and a time frame, and provides the first instance of historical results to the first participant.

Abstract: The present disclosure relates generally to a method of multiple attribute monitoring for biological and other complex compounds using a chromatography-optical detector-mass spectrometry method. The mass spectrometry method can use a high resolution mass spectrometer. The methodology utilizes similar analytical techniques and instruments for both the characterization and the monitoring of biological and other complex compounds.

Abstract: A method for observing nanostructures by optical microscopy is provided. Firstly, a sample with a nanostructure and a vapor-condensation-assisted optical microscopy system are provided. The vapor-condensation-assisted optical microscopy system comprises a vapor-condensation-assisted device and an optical microscope comprising a stage. The vapor-condensation-assisted device is used to provide a vapor to sample on the stage in application. Secondly, locating the sample is located on the stage. Thirdly, a vapor is applied to the sample to observe the sample via the optical microscopy system.

Abstract: A computer identifies a first participant and a one or more additional participants associated with a collaboration through an electronic communication application that includes messaging content, identifies a first set of one or more keywords within the messaging content between the first participant and the one or more additional participants, retrieves a first set of historical information based at least in part on the first set of one or more keywords, the first participant and the one or more additional participants, generates a first instance of historical results that includes a multi-dimensional cube that graphs the first set of historical information with respect to the first set of one or more keywords, the first participant and the one or more additional participants, and a time frame, and provides the first instance of historical results to the first participant.

Abstract: Mass spectrometry (MS) active, fluorescent rapid tagging reagent is provided having three substituent groups: (a) a tertiary amino group or other MS active atom; (b) a highly fluorescent moiety; and (c) a reactive group that can react with an amine. The reactive group provides rapid tagging of desired bio-molecules. The fluorescent moiety provides the fluorescent signal. The tertiary amino group provides the MS signal.

Abstract: A computer identifies a first participant and a one or more additional participants associated with a collaboration through an electronic communication application that includes messaging content, identifies a first set of one or more keywords within the messaging content between the first participant and the one or more additional participants, retrieves a first set of historical information based at least in part on the first set of one or more keywords, the first participant and the one or more additional participants, generates a first instance of historical results that includes a multi-dimensional cube that graphs the first set of historical information with respect to the first set of one or more keywords, the first participant and the one or more additional participants, and a time frame, and provides the first instance of historical results to the first participant.

Abstract: A color-changing composition for caring for and/or making up keratin materials is disclosed. The composition comprises: —a physiologically acceptable medium including at least an aqueous phase, —color-changing microcapsules, said microcapsules having a size ranging from 50 ?m to 1000 ?m, preferably from 80 ?m to 800 ?m, in particular from 100 ?m to 400 ?m, and comprising: (A) a core, having preferably a size ranging from 20 ?m to 800 ?m, comprising at least one colorant and preferably at least one binder, said colorant(s) including preferably at least one inorganic pigment preferably selected from iron oxide(s), and (B) a pressure-breakable wall layer surrounding said core, having preferably a thickness of 10 ?m to 300 ?m, comprising at least one colorant and preferably at least one binder, said colorant(s) including preferably at least titanium dioxide particles, Wherein said microcapsules includes at least 70% by weight of colorant(s), compared to the total weight of said microcapsules.