2023
DOI: 10.1021/jasms.3c00121
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Lighting Up at High Potential: Effects of Voltage and Emitter Size in Nanoelectrospray Ionization

Abstract: Effects of electrospray voltage on cluster size and abundance formed from aqueous CsI were investigated with emitter tip diameters between 260 ± 7 nm and 2.45 ± 0.30 μm. Cluster size increases with increasing voltage, increasing solution concentration and increasing emitter diameter consistent with formation of larger initial droplet sizes. For emitters with tip diameters above ∼1 μm, varying the voltage either up or down leads to reproducible voltage-dependent extents of cluster formation. In contrast, higher… Show more

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Cited by 6 publications
(6 citation statements)
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“…Emitter flow rates were determined by measuring the mass of the emitter loaded with ∼5-10 µL of solution using an Ohaus Analytical Plus balance (Parsippany, NJ) before and after electrospray at 1.3 kV for 5 minutes. 63,64 To determine the mass loss due to evaporation, the same emitter was placed in front of the mass spectrometer with no spray voltage applied and the mass was measured after 5 minutes. Mass loss due to solution flow during electrospray and evaporation were obtained using a density of 0.99821 g mL −1 for water at 20 °C.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Emitter flow rates were determined by measuring the mass of the emitter loaded with ∼5-10 µL of solution using an Ohaus Analytical Plus balance (Parsippany, NJ) before and after electrospray at 1.3 kV for 5 minutes. 63,64 To determine the mass loss due to evaporation, the same emitter was placed in front of the mass spectrometer with no spray voltage applied and the mass was measured after 5 minutes. Mass loss due to solution flow during electrospray and evaporation were obtained using a density of 0.99821 g mL −1 for water at 20 °C.…”
Section: Methodsmentioning
confidence: 99%
“…In order to obtain an estimate of the time that a protein spends in the solution that is directly heated by the laser, the solution flow rate and volume in the heated portion of the emitter were measured. The flow rate was measured gravimetrically, 63,64 and the volume of the tip was approximated by a truncated cone. The inner diameter of the emitter tip and the inner diameter 300 μm away from the tip are ∼2.4 μm and ∼45 μm determined from scanning electron and optical light microscope images, respectively.…”
Section: Thermal Timescales Of Lh-esi and Vt-esimentioning
confidence: 99%
“…Parameters for common nano-ESI tips can be found elsewhere. 45,47 For successful ionization using nESI, a voltage needs to be applied to the solution inside the tip. Two common options exist: the insertion of an inert metal wire (often Pt) that is connected to the source, or the coating of the nanotip with a conductive material (often Au, Pd or Pt).…”
Section: ■ Technical Detailsmentioning
confidence: 99%
“…The design of these “nano-tips” needs some consideration, and depending on usage, either the purchase of premade nanotips or the in-house design with capillary pullers is possible. Parameters for common nano-ESI tips can be found elsewhere. , …”
Section: Technical Detailsmentioning
confidence: 99%
“…34 CDMS has the advantage that the m / z , charge, and mass of ions are measured on an individual basis, thereby circumventing issues associated with the spectral congestion of heterogeneous samples analyzed using conventional mass spectrometers. 18,34–48 This capability has extended the size range of ionic clusters that can be investigated by more than 100-fold. The extent of charging on aqueous nanodrops relative to the Rayleigh limit charge for an aqueous nanodrop depends on the identity of ions contained in the droplet.…”
Section: Introductionmentioning
confidence: 99%