Abstract: Methods for determining the quality of a biomolecular microarray to determine suitability of the microarray for performing specific binding reactions, such as hybridization, are provided. Methods are based on staining a microarray with a solution of detectable nanoparticles that reversibly stain the biomolecules through an electrostatic interaction to select microarrays that meet quality standards for hybridization reactions. A gold nanoparticle solution based staining method for DNA microarrays is provided. Destaining methods allowing multiple rounds of hybridization of nanogold stained microarrays are provided. Microarrays selected by methods of the invention are provided.

Abstract: Methods for reducing the growth of breast cancer cells in a subject by exposing the cells to nanoparticles, and irradiating with a focused, low to medium power ultrasound. The nanoparticles can be gold or magnetic nanoparticles. The nanoparticles can have a cancer drug attached, such as an antibody-based cancer drug.

Abstract: A wideband antenna includes a grounding terminal, a first radiator disposed on a first plane, a feeding terminal formed on the first radiator, where the feeding terminal is to transmit and receive radio signals via the first radiator, and a second radiator disposed on the first plane, electrically connected to the grounding terminal, and including a part parallel to a side of the first radiator, wherein a minimum gap between the second radiator and the first radiator allows the second radiator and the first radiator to generate a coupling effect therebetween, so as to exchange radio signals between the second radiator and the first radiator.

Abstract: An ion trap mass spectrometer and methods for obtaining a mass spectrum of ions by scanning an RF frequency applied to the linear ion trap for mass selective ejection of the ions by using two power amplifiers to apply opposite phases of the RF to x and y electrodes.

Abstract: Methods for diagnosis of non-small cell lung cancers by detection of endogenous peptides in exhaled breath condensate (EBC) are provided. Diagnostic peptides derived from dermcidin (DC) are provided. A specific dermcidin-derived peptide E-R11, having the sequence ENAGEDPGLAR (SEQ ID NO:2), is provided. E-R11 peptide levels in EBC, as measured by mass spectrometry (MS), are highly diagnostic of non-small cell lung cancers. A method for inhibiting growth of lung cancer cells by inhibiting DCD expression by RNA interference also is provided.

Abstract: A periodic field differential mobility analyzer apparatus for separating and identifying ionic analytes employs a series of elongated parallel channels, a pump, a first voltage providing an electric field Ex in a direction opposing the gas flow, a second voltage providing an electric field Ey in a direction perpendicular to the gas flow, an ion source, and a detector. The periodic field differential mobility analyzer provides high resolution and sensitivity.

Abstract: A wireless communication device includes a metal frame, a mechanical part on which a ground is formed for providing grounding, and at least one antenna, wherein each one of the at least one antenna includes a radiator, a feed terminal electrically connected to the radiator, disposed adjacent to the metal frame and for feeding a radio-frequency signal, a first ground terminal disposed at a first side of the feed terminal for electrically connecting the metal frame with the ground of the mechanical part, and a second ground terminal disposed at a second side of the feed terminal for electrically connecting the metal frame with the ground of the mechanical part, wherein an area enclosed by the metal frame, the mechanical part and the first and second ground terminals forms a first slot.

Abstract: Methods and apparatuses for portable mass spectrometry are disclosed. The apparatuses comprise at least one source of ionized analyte, at least one frequency scanning subsystem, at least one detector, and optionally at least one vacuum pump, and are portable. In some embodiments, the apparatuses comprise multiple sources of ionized analyte and/or are configured to obtain mass spectra of a large analyte, such as analyte with an m/z ratio of at least 105, or analyte with a molecular weight of at least 105 Da, as well as mass spectra of small molecule analyte. In some embodiments, the methods comprise obtaining mass spectra with a portable apparatus described above.

Abstract: Methods for reducing the growth of breast cancer cells in a subject by exposing the cells to nanoparticles, and irradiating with a focused, low to medium power ultrasound. The nanoparticles can be gold or magnetic nanoparticles. The nanoparticles can have a cancer drug attached, such as an antibody-based cancer drug.

Abstract: Methods for killing cancer cells and treating cancer in a subject by exposing the cells to nanoparticles, and irradiating with a focused, low to medium power ultrasound. The nanoparticles can be gold, iron oxide, copper, silver, polystyrene, PEG, or liposome nanoparticles. The nanoparticles can have a cancer drug attached, such as an antibody-based cancer drug.

Abstract: Apparatus and methods for automatic amino acid sequencing of a glycopeptide by mass spectrometry. The glycopeptide is fragmented by higher energy collision dissociation fragmentation, and sequentially fragmented by collision induced dissociation fragmentation. The glycopeptide Y1 ion is isolated, and the mass spectra of fragmented glycopeptide Y1 ions provide mass spectral peaks corresponding to the amino acid sequence of the glycopeptide.

Abstract: Apparatus and methods for high performance liquid chromatography. The apparatus includes a preparation loop comprising two linear stepping pumps, a sample loop comprising a sample injector, a chromatography column, and a detector device. The detector device can include a flash lamp, a flow cell, and a light sensor comprising an entrance slit, a grating; and a charge-coupled device array.

Abstract: Apparatus and methods for creating a pulsed ion beam. The pulsed ion beam can be used for performing mass spectrometry. A pulsed solenoid valve can provide a pulsed ion beam from an electrospray in a pre-vacuum chamber. The pulsed ion beam can enter a high vacuum region and a mass analyzer for mass spectrometry.

Abstract: Apparatus and methods for performing mass spectrometry of a nanoparticle or virus analyte. Apparatus may include a laser desorption plate, a mass analyzer configured to measure mass over the range of m/z from 105 to 1010, an electrical shield surrounding the mass analyzer, and a charge sensitive detector, wherein the laser firing is phase lock synchronized with the applied radiofrequency voltages.

Abstract: A novel system and method for charge-monitoring mass spectrometry is provided. The mass spectrometer can be used to measure the mass of one or more analytes having masses in the range of about a few Daltons to more than about 1015 Daltons. The invention can be used for rapid mass distribution measurements. For example, the system and method can be used to distinguish cancer cells from normal cells when their mass distributions are different.

Abstract: Apparatus and methods for performing mass spectrometry of a nanoparticle or virus analyte. Apparatus may include a laser desorption plate, a mass analyzer configured to measure mass over the range of m/z from 105 to 1010, an electrical shield surrounding the mass analyzer, and a charge sensitive detector, wherein the laser firing is phase lock synchronized with the applied radiofrequency voltages.

Abstract: Methods for killing cancer cells and treating cancer in a subject by exposing the cells to nanoparticles, and irradiating with a focused, low to medium power ultrasound. The nanoparticles can be gold, iron oxide, copper, silver, polystyrene, PEG, or liposome nanoparticles. The nanoparticles can have a cancer drug attached, such as an antibody-based cancer drug.

Abstract: A novel system and methods for accelerating analytes including, without limitation, molecular ions, biomolecules, polymers, nano- and microparticles, is provided. The invention can be useful for increasing detection sensitivity in applications such as mass spectrometry, performing collision-induced dissociation molecular structure analysis, and probing surfaces and samples using accelerated analyte.

Abstract: An ion trap mass spectrometer and methods for obtaining a mass spectrum of ions by step scanning the driving frequency in frequency increments over a bandwidth, wherein for each step a specific frequency is held for a fixed number of complete cycles, wherein each specific frequency is changed continuously to the frequency in the next step, and wherein each specific frequency in each step starts at phase zero position.

Abstract: An ion trap mass spectrometer and methods for obtaining a mass spectrum of ions by step scanning the driving frequency in frequency increments over a bandwidth, wherein for each step a specific frequency is held for a fixed number of complete cycles, wherein each specific frequency is changed continuously to the frequency in the next step, and wherein each specific frequency in each step starts at phase zero position.