1 ore economical and sustainable hydrogen as a nebulizing gas.

2 ite mesh using compressed N(2) or air as the nebulizing gas.

3 n sprayed with carbon dioxide (CO(2)) as the nebulizing gas.

4 ure and atmospheric pressure using N(2) as a nebulizing gas.

5 traditional micro ESI source with supersonic nebulizing gas.

6 plet velocity, and the cooling effect of the nebulizing gas.

7         The influences of capillary voltage, nebulizing gas, an electrolyte modifier, and flow rate o

8 oplets and the solution pH, dissolved salts, nebulizing gas, and gaseous environment.

9 e pneumatic spray operated at extremely high nebulizing gas flow rates.

10 n outer stainless-steel tube through which a nebulizing gas flows under pressure.

11                                   The set of nebulizing gases included hydrogen, helium, nitrogen, ar

12 meter to direct the aerosol flow through the nebulizing gas inlet.

13 r (part number: 0601815, Bruker Daltonik), a nebulizing gas (N(2)) pressure of 3.9 bar and a sprayer

14 and isopropanol) as well as using solely the nebulizing gas or ambient air on the ionization and char

15 ers, such as water quality, water flow rate, nebulizing gas pressure, and sonic sprayer geometry.

16              The high linear velocity of the nebulizing gas provides efficient pneumatic spraying of

17 ompressed air as the DESI spray solution and nebulizing gas, respectively, showed similar ionization

18               Here, an expanded selection of nebulizing gases was evaluated to investigate mechanisms

19 n significantly be improved by enriching the nebulizing gas with a dopant (dopant enriched nitrogen (