Interlaboratory comparison of size measurements on nanoparticles using nanoparticle tracking analysis (NTA)

被引:0
作者
Patrick Hole
Katherine Sillence
Claire Hannell
Ciaran Manus Maguire
Matthias Roesslein
Guillaume Suarez
Sonja Capracotta
Zuzana Magdolenova
Limor Horev-Azaria
Agnieszka Dybowska
Laura Cooke
Andrea Haase
Servane Contal
Stein Manø
Antje Vennemann
Jeans-Jacques Sauvain
Kieran Crosbie Staunton
Sergio Anguissola
Andreas Luch
Maria Dusinska
Rafi Korenstein
Arno C. Gutleb
Martin Wiemann
Adriele Prina-Mello
Michael Riediker
Peter Wick
机构
[1] NanoSight Ltd.,Trinity Centre for Health Sciences, Department of Clinical Medicine
[2] Institute of Molecular Medicine,Laboratory for Materials
[3] St. James’s Hospital, Biology Interactions
[4] Swiss Federal Laboratories for Materials Research and Testing (Empa),Health Effects Laboratory, Department of Environmental Chemistry
[5] Institute for Work and Health,Department of Physiology and Pharmacology
[6] NanoSight USA,Department of Earth Sciences
[7] Norwegian Institute for Air Research,Centre for Bio
[8] Sackler School of Medicine,Nano Interactions (CBNI)
[9] Tel Aviv University,Experimental Research, Department of Product Safety
[10] Natural History Museum,Département Environnement et Agro
[11] University College Dublin,biotechnologies (EVA)
[12] Bundesinstitut fur Risikobewertung (BfR),undefined
[13] Centre de Recherche Public Gabriel Lippmann,undefined
[14] IBE R&D Institute for Lung Health gGmbH,undefined
来源
Journal of Nanoparticle Research | 2013年 / 15卷
关键词
Nanoparticle; Interlaboratory comparison; Reproducibility; Polydispersity; Toxicology; Health and safety implications;
D O I
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学科分类号
摘要
One of the key challenges in the field of nanoparticle (NP) analysis is in producing reliable and reproducible characterisation data for nanomaterials. This study looks at the reproducibility using a relatively new, but rapidly adopted, technique, Nanoparticle Tracking Analysis (NTA) on a range of particle sizes and materials in several different media. It describes the protocol development and presents both the data and analysis of results obtained from 12 laboratories, mostly based in Europe, who are primarily QualityNano members. QualityNano is an EU FP7 funded Research Infrastructure that integrates 28 European analytical and experimental facilities in nanotechnology, medicine and natural sciences with the goal of developing and implementing best practice and quality in all aspects of nanosafety assessment. This study looks at both the development of the protocol and how this leads to highly reproducible results amongst participants. In this study, the parameter being measured is the modal particle size.
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