Influence of acidity on liquid–liquid phase transitions of mixed secondary organic aerosol (SOA) proxy–inorganic aerosol droplets

to related objects

Abstract///O: C) of 0.67, 0.50 and 0.33, respectively. In contrast, liquid–liquid phase separation (LLPS) did not occur in the high-O: C system of glycerol /O: C ratio of 1.00. Additionally, the morphology of 42 out of the 46 aerosol particles that underwent LLPS was observed to be a core–shell structure. Our findings provide a comprehensive understanding of the pH-dependent LLPS in individual suspended aerosol droplets and pave the way for future research on phase separation of atmospheric aerosol particles.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Influence of acidity on liquid–liquid phase transitions of mixed secondary organic aerosol (SOA) proxy–inorganic aerosol droplets ; volume:23 ; number:17 ; year:2023 ; pages:10255-10265 ; extent:11
Atmospheric chemistry and physics ; 23, Heft 17 (2023), 10255-10265 (gesamt 11)

Creator
Chen, Yueling
Pei, Xiangyu
Liu, Huichao
Meng, Yikan
Xu, Zhengning
Zhang, Fei
Xiong, Chun
Preston, Thomas C.
Wang, Zhibin

DOI
10.5194/acp-23-10255-2023
URN
urn:nbn:de:101:1-2023092104312578055986
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
14.08.2025, 10:48 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

  • Chen, Yueling
  • Pei, Xiangyu
  • Liu, Huichao
  • Meng, Yikan
  • Xu, Zhengning
  • Zhang, Fei
  • Xiong, Chun
  • Preston, Thomas C.
  • Wang, Zhibin

Other Objects (12)

Influence of acidity on liquid−liquid phase transitions of mixed SOA proxy–inorganic aerosol droplets

Influence of acidity on liquid−liquid phase transitions of mixed SOA proxy–inorganic aerosol droplets

Shortwave radiative impact of liquid–liquid phase separation in brown carbon aerosols

Shortwave radiative impact of liquid–liquid phase separation in brown carbon aerosols

Short wave radiative impact of liquid-liquid phase separation in Brown Carbon aerosols

Short wave radiative impact of liquid-liquid phase separation in Brown Carbon aerosols

Liquid–Liquid Interfacial Nanoarchitectonics

Liquid–Liquid Interfacial Nanoarchitectonics

Liquid–liquid phase separation and viscosity within secondary organic aerosol generated from diesel fuel vapors

Liquid–liquid phase separation and viscosity within secondary organic aerosol generated from diesel fuel vapors

Water uptake of subpollen aerosol particles: hygroscopic growth, CCN activation, and liquid-liquid phase separation

Water uptake of subpollen aerosol particles: hygroscopic growth, CCN activation, and liquid-liquid phase separation

Dielectrics at Liquid-Liquid Interfaces

Dielectrics at Liquid-Liquid Interfaces

Water uptake of subpollen aerosol particles: hygroscopic growth, cloud condensation nuclei activation, and liquid–liquid phase separation

Water uptake of subpollen aerosol particles: hygroscopic growth, cloud condensation nuclei activation, and liquid–liquid phase separation

Modeling of stirred liquid-liquid dispersions

Modeling of stirred liquid-liquid dispersions

Aerosol acidity and liquid water content regulate the dry deposition of inorganic reactive nitrogen

Aerosol acidity and liquid water content regulate the dry deposition of inorganic reactive nitrogen

Aerosol acidity and liquid water content regulate the dry deposition of inorganic reactive nitrogen

Aerosol acidity and liquid water content regulate the dry deposition of inorganic reactive nitrogen

LLPC, Liquid-liquid partition chromatography of biopolymers

LLPC, Liquid-liquid partition chromatography of biopolymers

Related objects