TY - JOUR
T1 - Electromembrane extraction in microfluidic formats
AU - Hansen, Frederik André
AU - Petersen, Nickolaj Jacob
AU - Kutter, Jörg P.
AU - Pedersen-Bjergaard, Stig
N1 - Publisher Copyright:
© 2021 The Authors. Journal of Separation Science published by Wiley-VCH GmbH
PY - 2022
Y1 - 2022
N2 - Electromembrane extraction is a microextraction technique where charged analytes are extracted across a supported liquid membrane and selectively isolated from the sample based on an electrical field. Since the introduction in 2006, there has been continuously increasing interest in electromembrane extraction, and currently close to 50 new articles are published per year. Electromembrane extraction can be performed in different technical configurations, based on standard laboratory glass vials or 96-well plate systems, and applications are typically related to pharmaceutical, environmental, and food and beverages analysis. In addition to this, conceptual research has developed electromembrane extraction into different milli- and microfluidic formats. These are much more early-stage activities, but applications among others related to organ-on-chip systems and smartphone detection indicate unique perspectives. To stimulate more research in this direction, the current article reviews the scientific literature on electromembrane extraction in milli- and microfluidic formats. About 20 original research articles have been published on this subject so far, and these are discussed critically in the following. Based on this and the authors own experiences with the topic, we discuss perspectives, challenges, and future research.
AB - Electromembrane extraction is a microextraction technique where charged analytes are extracted across a supported liquid membrane and selectively isolated from the sample based on an electrical field. Since the introduction in 2006, there has been continuously increasing interest in electromembrane extraction, and currently close to 50 new articles are published per year. Electromembrane extraction can be performed in different technical configurations, based on standard laboratory glass vials or 96-well plate systems, and applications are typically related to pharmaceutical, environmental, and food and beverages analysis. In addition to this, conceptual research has developed electromembrane extraction into different milli- and microfluidic formats. These are much more early-stage activities, but applications among others related to organ-on-chip systems and smartphone detection indicate unique perspectives. To stimulate more research in this direction, the current article reviews the scientific literature on electromembrane extraction in milli- and microfluidic formats. About 20 original research articles have been published on this subject so far, and these are discussed critically in the following. Based on this and the authors own experiences with the topic, we discuss perspectives, challenges, and future research.
KW - electromembrane extraction
KW - microextraction
KW - microfluidics
KW - sample preparation
U2 - 10.1002/jssc.202100603
DO - 10.1002/jssc.202100603
M3 - Review
C2 - 34562339
VL - 45
SP - 246
EP - 257
JO - HRC & CC, Journal of High Resolution Chromatography and Chromatography Communications
JF - HRC & CC, Journal of High Resolution Chromatography and Chromatography Communications
SN - 1615-9306
IS - 1
ER -