Colloidal Mechanisms of Gold Nanoparticle Loss in Asymmetric Flow Field-Flow Fractionation

Jochem, Aljosha‐Rakim; Ankah, Genesis Ngwa; Meyer, Lars-Arne; Elsenberg, Stephan; Johann, Christoph; Kraus, Tobias

doi:10.1021/acs.analchem.6b02397

Cited by 22 publications

(18 citation statements)

References 41 publications

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“…A study conducted by Matas et al (2004) has shown that neutrally buoyant particles are driven away from walls in a laminar tube flow when particle dimensions approach those of the tube diameter. Jochem et al (2016) found that transport of particles in microfluidic devices and losses in comparable PEEK tubing were negligible. Based on these considerations and studies, we assume there is little opportunity for water-encapsulated particles to be lost to surfaces during both collection into water and transport.…”

Section: Methodsmentioning

confidence: 96%

An online monitor of the oxidative capacity of aerosols (o-MOCA)

2017

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The capacity of airborne particulate matter to generate reactive oxygen species (ROS) has been correlated with the generation of oxidative stress both in vitro and in vivo. The cellular damage from oxidative stress, and by implication with ROS, is associated with several common diseases, such as asthma and chronic obstructive pulmonary disease (COPD), and some neurological diseases. Yet currently available chemical and in vitro assays to determine the oxidative capacity of ambient particles require large samples, analyses are typically done offline, and the results are not immediate. Here we report the development of an online monitor of the oxidative capacity of aerosols (o-MOCA) to provide online, time-resolved assessment of the capacity of airborne particles to generate ROS. Our approach combines the Liquid Spot Sampler (LSS), which collects particles directly into small volumes of liquid, and a chemical module optimized for online measurement of the oxidative capacity of aerosol using the dithiothreitol (DTT) assay. The LSS uses a three-stage, laminar-flow water condensation approach to enable the collection of particles as small as 5 nm into liquid. The DTT assay has been improved to allow the online, time-resolved analysis of samples collected with the LSS but could be adapted to other collection methods or offline analysis of liquid extracts. The o-MOCA was optimized and its performance evaluated using the 9,10-phenanthraquinone (PQ) as a standard redox-active compound. Laboratory testing shows minimum interferences or carryover between consecutive samples, low blanks, and a reproducible, linear response between the DTT consumption rate (nmol min−1) and PQ concentration (μM). The calculated limit of detection for o-MOCA was 0.15 nmol min−1. The system was validated with a diesel exhaust particle (DEP) extract, previously characterized and used for the development, improvement, and validation of the standard DTT analysis. The DTT consumption rates (nmol min−1) obtained with the o-MOCA were within experimental uncertainties of those previously reported for these DEP samples. In ambient air testing, the fully automated o-MOCA was run unattended for 3 days with 3 h time resolution and showed a diurnal and daily variability in the measured consumption rates (nmol min−1 m−3).

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Section: Methodsmentioning

confidence: 96%

An online monitor of the oxidative capacity of aerosols (o-MOCA)

2017

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“…PEG on the surface of NPs is responsible for colloidal stability through steric repulsion. This steric repulsion is more evident for PEG with a higher MW [90][91][92][93] . The reason is that the distance between two NPs increases with the increase of the length of PEG chains, thus enhancing the steric repulsion of PEG and avoiding the aggregation of NPs 94 .…”

Section: Nanoparticle Stabilitymentioning

confidence: 99%

Effects of polyethylene glycol on the surface of nanoparticles for targeted drug delivery

et al. 2021

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“…AF4 has high throughput but analyte loss (recovery rate) is always an issue, as the exosomes are driven toward one side of the channel and across it. A recent study with nanoparticles [44] shows a loss as much as 74%. Yet another size‐based technology is the Nanoscale Deterministic Lateral Displacement (NDLD) technology [21] that uses nanopillars to laterally deflect EVs in a flowing stream.…”

Section: High‐throughput and High‐yield Ev Purification By Membrane Mmentioning

confidence: 99%

Liquid biopsy technologies based on membrane microfluidics: High‐yield purification and selective quantification of biomarkers in nanocarriers

Wang

Senapati

2020

Electrophoresis

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Liquid biopsy, screening cancer non‐invasively and frequently by detecting and quantifying molecular markers in physiological fluids, would significantly improve cancer survival rate but it remains a distant goal. The key obstacles presented by the highly heterogeneous samples are rapid/high‐yield purification and precise/selective marker capture by their antibody and oligo probes. As irregular expressions of these molecular biomarkers are the key signals, quantifying only those from the cancer cells would greatly enhance the performance of the screening tests. The recent discovery that the biomarkers are carried by nanocarriers, such as exosomes, with cell‐specific membrane proteins suggests that such selection may be possible, although a new suite of fractionation and quantification technologies would need to be developed. Although under‐appreciated, membrane microfluidics has made considerable contributions to resolving these issues. We review the progress made so far, based on ion‐selective, track‐etched, and gel membranes and advanced electrophoretic and nano‐filtration designs, in this perspective and suggest future directions.

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Colloidal Mechanisms of Gold Nanoparticle Loss in Asymmetric Flow Field-Flow Fractionation

Cited by 22 publications

References 41 publications

An online monitor of the oxidative capacity of aerosols (o-MOCA)

An online monitor of the oxidative capacity of aerosols (o-MOCA)

Effects of polyethylene glycol on the surface of nanoparticles for targeted drug delivery

Liquid biopsy technologies based on membrane microfluidics: High‐yield purification and selective quantification of biomarkers in nanocarriers

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