Joris T K Quik
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Explore the profile of Joris T K Quik including associated specialties, affiliations and a list of published articles.
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Articles
15
Citations
256
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Recent Articles
1.
Abdolahpur Monikh F, Quik J, Wiesner M, Tapparo A, Pastore P, Grossart H, et al.
Environ Sci Technol
. 2025 Mar;
59(9):4674-4683.
PMID: 40025674
Here, we assessed the heteroaggregation of polystyrene (PS) and poly(vinyl chloride) (PVC) nanoplastics with SiO as a model of natural colloids. Homoaggregation and heteroaggregation were evaluated as a function of...
2.
Keller A, Zheng Y, Praetorius A, Quik J, Nowack B
NanoImpact
. 2024 Jan;
33:100496.
PMID: 38266914
There have been major advances in the science to predict the likely environmental concentrations of nanomaterials, which is a key component of exposure and subsequent risk assessment. Considerable progress has...
3.
Poikkimaki M, Quik J, Saamanen A, Dal Maso M
Toxics
. 2022 Jul;
10(7).
PMID: 35878259
Nanotechnology is a growing megatrend in industrial production and innovations. Many applications utilize engineered nanomaterials (ENMs) that are potentially released into the atmospheric environment, e.g., via direct stack emissions from...
4.
Wang Z, Quik J, Song L, Wouterse M, Peijnenburg W
Environ Toxicol Chem
. 2017 Dec;
37(4):1024-1031.
PMID: 29240259
Comprehensive experimental quantification and mapping of the aggregation and dispersion state of engineered nanoparticles (NPs) in the presence of humic substances is a great challenge. Dissipative particle dynamic (DPD) simulation...
5.
Park M, Bleeker E, Brand W, Cassee F, van Elk M, Gosens I, et al.
ACS Nano
. 2017 Sep;
11(10):9574-9593.
PMID: 28933820
The terms "Safe innovation" and "Safe(r)-by-design" are currently popular in the field of nanotechnology. These terms are used to describe approaches that advocate the consideration of safety aspects already at...
6.
Besseling E, Quik J, Sun M, Koelmans A
Environ Pollut
. 2016 Oct;
220(Pt A):540-548.
PMID: 27743792
Riverine transport to the marine environment is an important pathway for microplastic. However, information on fate and transport of nano- and microplastic in freshwater systems is lacking. Here we present...
7.
Quik J, de Klein J, Koelmans A
Water Res
. 2015 May;
80:200-8.
PMID: 26001284
Site specific exposure assessments for engineered nanoparticles (ENPs) require spatially explicit fate models, which however are not yet available. Here we present an ENP fate model (NanoDUFLOW) that links ENP...
8.
Wang Z, Quik J, Song L, van den Brandhof E, Wouterse M, Peijnenburg W
Environ Toxicol Chem
. 2015 Feb;
34(6):1239-45.
PMID: 25683234
The present study investigated how humic substances (HS) modify the aquatic toxicity of silver nanoparticles (AgNPs) as these particles agglomerate in water and interact with HS. An alga species (Raphidocelis...
9.
Quik J, van de Meent D, Koelmans A
Water Res
. 2014 Jun;
62:193-201.
PMID: 24956601
Parameters and simplified model approaches for describing the fate of engineered nanoparticles (ENPs) are crucial to advance the risk assessment of these materials. Sedimentation behavior of ENPs in natural waters...
10.
Multimedia modeling of engineered nanoparticles with SimpleBox4nano: model definition and evaluation
Meesters J, Koelmans A, Quik J, Hendriks A, van de Meent D
Environ Sci Technol
. 2014 Apr;
48(10):5726-36.
PMID: 24766433
Screening level models for environmental assessment of engineered nanoparticles (ENP) are not generally available. Here, we present SimpleBox4Nano (SB4N) as the first model of this type, assess its validity, and...