6533b7d5fe1ef96bd12647c0
RESEARCH PRODUCT
Versailles project on advanced materials and standards (VAMAS) interlaboratory study on measuring the number concentration of colloidal gold nanoparticles
Caterina MinelliMagdalena WywijasDorota BartczakSusana Cuello-nuñezHeidi Goenaga InfanteJerome DeumerChristian GollwitzerMichael KrumreyKaren E. MurphyMonique E. JohnsonAntonio R. Montoro BustosIngo H. StrengeBertrand FaurePeter HøghøjVivian TongLoïc BurrKarin NorlingFredrik HöökMatthias RoessleinJovana KocicLyndsey HendriksVikram KestensYannic RamayeMaria C. Contreras LopezGuy AuclairDora MehnDouglas GillilandAnnegret PotthoffKathrin OelschlägelJutta TentschertHarald JungnickelBenjamin C. KrauseYves U. HachenbergerPhilipp ReichardtAndreas LuchThomas E. WhittakerMolly M. StevensShalini GuptaAkash SinghFang-hsin LinYi-hung LiuAnna Luisa CostaCarlo BaldisserriRid JawadSamir E. L. AndaloussiMargaret N. HolmeTae Geol LeeMinjeong KwakJaeseok KimJohanna ZiebelCedric GuignardSebastien CambierServane ContalArno C. GutlebJan “Kuba” TatarkiewiczBartłomiej J. JankiewiczBartosz BartosewiczXiaochun WuJeffrey A. FaganElisabeth EljeElise Rundén-pranMaria DusinskaInder Preet KaurDavid PriceIan NesbittSarah O′ ReillyRuud J. B. PetersGuillaume BucherDennis ColemanAngela J. HarrisonAntoine GhanemAnne GeringEileen MccarronNiamh FitzgeraldGeert CornelisJani TuoriniemiMidori SakaiHidehisa TsuchidaCiarán MaguireAdriele Prina-melloAlan J. LawlorJessica AdamsCarolin L. SchultzDoru ConstantinNguyen Thi Kim ThanhLe Duc TungLuca PanarielloSpyridon DamilosAsterios GavriilidisIseult LynchBenjamin FryerAna Carrazco QuevedoEmily GuggenheimSophie BriffaEugenia Valsami-jonesYuxiong HuangArturo A. KellerVirva-tuuli KinnunenSiiri PerämäkiZeljka KrpeticMichael GreenwoodAlexander G. Shardsubject
TechnologyconcentrationkolloiditChemistry MultidisciplinaryMaterials ScienceMaterials Science MultidisciplinaryPLASMA-MASS SPECTROMETRYkultaPhysics Appliedcolloids10 TechnologySIZE DISTRIBUTIONSCATTERINGLife ScienceGeneral Materials ScienceNanoscience & NanotechnologyTeam Organic ContaminantsScience & Technology02 Physical SciencesPhysicsNanostructured materialsQUANTIFICATIONgoldmittaustekniikkaChemistrylaboratoriotekniikkapitoisuusColloidal goldPhysical SciencesScience & Technology - Other TopicsNanoparticlesnanohiukkasetPARTICLE03 Chemical Sciencesdescription
The advancement of analytical methods for nanoparticle measurements is critical both for the growing industrial exploitation of engineered nanoparticles and for developing robust strategies to understand and control the concentration of nanomaterials in humans and the environment. For high value nanoparticles, the measurement of nanoparticle number concentration in a liquid directly impacts the ability to assess the scale and reproducibility of the production process, it allows optimisation of efficiency and supports regulatory compliance. This measurement is also useful to monitor and control the intentional or accidental release of engineered nanoparticles into the environment at the production plant, as well as by end-users.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2022-01-01 |