# The Effects of Solvation Enthalpy, Surface Tension, and Conductivity of Common Additives on Positive Electrospray Ionization in Selected Pharmaceuticals

**Authors:** Pieter Venter

PMC · DOI: 10.3390/molecules30091885 · Molecules · 2025-04-23

## TL;DR

This study explores how different additives affect ionization efficiency in pharmaceutical analysis, finding that ammonium-based additives improve signal intensity due to their physical and chemical properties.

## Contribution

The paper introduces a novel comparison of ammonium and hydronium additives in electrospray ionization, highlighting their distinct effects on signal intensity and ion formation.

## Key findings

- Ammonium salts outperform hydronium salts at higher concentrations due to better solvation enthalpy and surface tension.
- Ammonium hydroxide is the most effective additive, likely due to its anionic conjugate base and lower conductivity.
- Ammonium bicarbonate prevents metal adducts, enhancing [M + H]+ ion signals.

## Abstract

This study investigates the effects of common additives, which provide distinct proton sources—ammonium (NH4+) and hydronium (H3O+)—along with their corresponding conjugate base species, on signal intensity in positive ionization mode. The findings reveal that signal intensity is influenced by factors such as solvation enthalpy, surface tension, and conductivity. At lower additive concentrations (<10 mM), based on fold changes, no clear distinction could be made between formic acid, acetic acid, and their corresponding salts. At higher additive concentrations, NH4+ appears to be a more efficient proton source than H+ (H3O+), likely due to its more positive solvation enthalpy, which promotes greater enrichment of NH4+ on the droplet surface, as well as the reduced surface tension of ammonium salts compared to their acid counterparts. Additionally, ammonium hydroxide proves to be the most effective ammonium-based modifier, likely due to its anionic conjugate base, hydroxide, which has a more negative solvation enthalpy compared to acetate and formate. This characteristic is hypothesized to reduce charge neutralization of cations on the droplet surface and/or in the gas phase. Furthermore, ammonium hydroxide exhibits lower conductivity compared to the other ammonium additives, which is believed to enhance signal intensity. Ammonium bicarbonate, the second most effective additive, uniquely prevents metal adduct formation, leading to enhanced [M + H]+ ion signals.

## Linked entities

- **Chemicals:** ammonium (PubChem CID 223), NH4+ (PubChem CID 222), hydronium (PubChem CID 123332), H3O+ (PubChem CID 123332), formic acid (PubChem CID 284), acetic acid (PubChem CID 176), ammonium hydroxide (PubChem CID 14923), ammonium bicarbonate (PubChem CID 14013)

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12073616/full.md

## References

26 references — full list in the complete paper: https://tomesphere.com/paper/PMC12073616/full.md

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Source: https://tomesphere.com/paper/PMC12073616