In the work, we showed that the use of nanoemitters (tip dimension <1 μm, typically ∼100 nm) could dramatically reduce the nonspecific metal adduction to peptide or protein ions as well as improve the matrix tolerance of electrospray ionization mass spectrometry (ESI-MS). The proton-enriched smaller initial droplets are supposed to have played a significant role in suppressing the formation of metal adduct ions in nanoemitters. The proton-enrichment effect in the nanoemitters is related to both the exclusion-enrichment effect (EEE) and the ion concentration polarization effect (ICP effect), which permit the molecular ions to be regulated to protonated ones. Smaller initial charged droplets generated from nanoemitters need less fission steps to release the gas-phase ions; thus, the enrichment effect of salt was not as significant as that of microemitters (tip dimension >1 μm), resulting in the disappearing of salt cluster peaks in high mass-to-charge (m/z) region. The use of nanoemitters demonstrates a novel method for tuning the distribution of the metal-adducted ions to be in a controlled manner. This method is also characterized by ease of use and high efficiency in eliminating the formation of adduct ions, and no pretreatment such as desalting is needed even in the presence of salt at millimole concentration.
Abstract. Operation of helicon discharges at magnetic fields B 0 below 100 G is of interest for plasma etching and deposition reactors if high ion flux can be maintained with reduced field requirements. The theory of coupled helicon and Trivelpiece-Gould modes is summarized for uniform B 0 . Initial results from two experiments are reported. The first has a single 5 cm diameter tube with B 0 = 0-100 G injecting plasma into a field-free region. The second contains a two-dimensional array of seven such tubes covering a large area. Densities and density profiles are measured for various fields, RF powers and gas pressures. The highest density generally occurs at zero field. Because of the non-uniformity in B 0 , direct comparison with theory cannot yet be made.
In this work, a synchronized polarization induced electrospray ionization (SPI-ESI) method is developed and applied for the analysis of single-cell samples. In SPI-ESI, periodic alternating current square wave voltage (AC-SWV) is applied to induce the bipolar spray and both positive-ion and negative-ion mass spectra are obtained through one measurement by synchronizing the mode of mass analyzer with the bipolar spray process. Compared with conventional nanoelectrospray ionization (nESI, flow rate< 1000 nL/min), ultralow spray flow rate (pico-electrospray ionization, pESI, flow rate < 1000 pL/min) is achieved in SPI-ESI without loss of its sensitivity. The decrease of flow rate prolongs the MS signal duration from single-cell samples to acquire ms(2) data for components determination. To our knowledge, this is the first time to successfully achieve comprehensive analysis of single-cell samples by combining both positive-ion and negative-ion mass spectra. Ultimately, 86 components are profiled from single Allium cepa cells and 94 components are profiled from single PC-12 cells.
Intense on-axis plasma production and associated relaxation oscillations in a large volume helicon source Phys. Plasmas 6, 3664 (1999); 10.1063/1.873624Characterization of an azimuthally symmetric helicon wave high density plasma source An exhaustive set of measurements has been made to find the optimum conditions for plasma injection into a processing chamber using small helicon sources with low magnetic fields B. It is found that the plasma density decreases, rather than increases, with B, as in normal helicon discharges. The design of the field coil and flange caused this effect; with a different design, normal operation was obtained. This experiment provides data on the area coverage of individual helicon discharges for the design of large-area, distributed plasma sources.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.