Elucidating Dissolved Organic Sulfur in the Coastal Environment by Improved Online Liquid Chromatography Coupled to FT‐ICR Mass Spectrometry

Abstract: Dissolved organic sulfur (DOS) is an important component of dissolved organic matter (DOM) and widely exists at the land‐atmosphere interface. However, the characterization of DOS at the molecular level among different environmental samples in coastal regions has not been sufficiently focused. Here, we investigated DOS in aerosol, rainwater, and river water samples in Shanghai using an improved method–online liquid chromatography coupled to Fourier transform ion cyclotron resonance mass spectrometry (LC‐FT‐ICR… Show more

“…To address this issue, we employ FT-ICR MS, a cutting-edge analytical technique renowned for its ultrahigh resolution, superior mass accuracy, and sensitivity. This powerful instrument has been applied to various environmental samples, including atmospheric aerosols, ,, fog/cloud/rainwater, − river water, − soil, − and marine water and sediments. − While electrospray ionization (ESI) positive mode is commonly used, it is particularly well suited for detecting basic or neutral nitrogen compounds such as cysteine and glutathione. − Furthermore, it has been proposed that biomass pyrolysis releases alkaloid nitrogen compounds that can influence particle acidity, significantly impacting the multiphase chemistry and composition of aging aerosols. ,, Consequently, we use FT-ICR MS coupled with ESI positive ionization to study the comprehensive molecular composition of NOCs within marine aerosols over the western Pacific influenced by peatland fires, with a specific emphasis on elucidating the distinctive molecular characteristics of N-base compounds.…”

Peatland Wildfires Enhance Nitrogen-Containing Organic Compounds in Marine Aerosols over the Western Pacific

“…To address this issue, we employ FT-ICR MS, a cutting-edge analytical technique renowned for its ultrahigh resolution, superior mass accuracy, and sensitivity. This powerful instrument has been applied to various environmental samples, including atmospheric aerosols, ,, fog/cloud/rainwater, − river water, − soil, − and marine water and sediments. − While electrospray ionization (ESI) positive mode is commonly used, it is particularly well suited for detecting basic or neutral nitrogen compounds such as cysteine and glutathione. − Furthermore, it has been proposed that biomass pyrolysis releases alkaloid nitrogen compounds that can influence particle acidity, significantly impacting the multiphase chemistry and composition of aging aerosols. ,, Consequently, we use FT-ICR MS coupled with ESI positive ionization to study the comprehensive molecular composition of NOCs within marine aerosols over the western Pacific influenced by peatland fires, with a specific emphasis on elucidating the distinctive molecular characteristics of N-base compounds.…”

Peatland Wildfires Enhance Nitrogen-Containing Organic Compounds in Marine Aerosols over the Western Pacific

Molecular Characteristics of Sea Spray Aerosols During Aging