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Line 1: {{AFC submission\|t\|\|ts=20190529181236\|u=Margravius\|ns=118\|demo=}}<!-- Important, do not remove this line before article has been created. --> '''Single Particle Extinction and Scattering (SPES)''' is a technique in [[physics]] that is used to characterise micro and [[nanoparticle\|nanoparticles]] in suspension in a fluid through two independent parameters, the diameter and the [[refractive index\|effective refractive index]].<ref>{{Cite web \|url=https://www.ncbi.nlm.nih.gov/pubmed/28756089 \|title=Single particle extinction and scattering optical method unveils in real time the influence of the blood components on polymeric nanoparticles \|last=Sanvito \|first=Tiziano \|last2=Bigini \|first2=Paolo \|date=November 2017 \|website=Nanomedicine: Nanotechnology, Biology, and Medicine \|publisher=[[National Center for Biotechnology Information]], [[U.S. National Library of Medicine]] \|pages=2597–2603 \|doi=10.1016/j.nano.2017.07.008 \|pmid=28756089 \|access-date=16 June 2019 \|last3=Cavanna \|first3=Maria V. \|last4=Fiordaliso \|first4=Fabio \|last5=Violatto \|first5=Martina B. \|last6=Talamini \|first6=Laura \|last7=Salmona \|first7=Mario \|last8=Milani \|first8=Paolo \|last9=Potenza \|first9=Marco A. C.}}</ref><ref>{{Cite web \|url=https://pubs.rsc.org/en/content/articlelanding/2017/nr/c6nr08977a \|title=Detecting the shape of anisotropic gold nanoparticles in dispersion with single particle extinction and scattering \|last=Dawson \|first=K. A. \|last2=Milani \|first2=P. \|date=2017-02-23 \|website=Nanoscale \|publisher=[[Royal Society of Chemistry]] \|___location=United Kingdom \|pages=2778–2784 \|language=en \|publication-place=United Kingdom \|doi=10.1039/C6NR08977A \|access-date=2019-06-16 \|last3=Castagnola \|first3=V. \|last4=Boselli \|first4=L. \|last5=Cella \|first5=C. \|last6=Araújo \|first6=J. M. de \|last7=Monopoli \|first7=M. \|last8=Cai \|first8=Q. \|last9=Sanvito \|first9=T.}}</ref> '''Single Particle Extinction and Scattering''' (also known as '''SPES''') is a technique in [[physics]] that can be used to characterise micro and [[nanoparticle\|nanoparticles]] in suspension in a fluid through two independent parameters, the diameter and the [[refractive index\|effective refractive index]]. A [[laser]] generate a [[gaussian beam]] which focuses inside a flow cell. A particle who passes in the focal region generates an interference in the beam, which is collected with a sensor. Trough this signal it is possible to derive the real part and the immaginary part of the forward scattering field, from each single particle. The technique was developed to measure aerosols in air<ref>https://doi.org/10.1007/s11051-017-3995-3</ref> and particles in liquid.<ref>{{Cite web \|url=https://www.nature.com/articles/srep18228 \|title=Single particle optical extinction and scattering allows real time quantitative characterization of drug payload and degradation of polymeric nanoparticles \|last=Milani \|first=P. \|last2=Lenardi \|first2=C. \|date=2015-12-15 \|website=Scientific Reports \|publisher=[[Nature (journal)]] \|pages=18228 \|doi=10.1038/srep18228 \|access-date=2019-06-16 \|last3=Paroli \|first3=B. \|last4=Cella \|first4=C. \|last5=Argentiere \|first5=S. \|last6=Sanvito \|first6=T. \|last7=Potenza \|first7=M. a. C.}}</ref>. == References == <!-- Inline citations added to your article will automatically display here. See en.wikipedia.org/wiki/WP:REFB for instructions on how to add citations. --> Line 10 ⟶ 11: {{AFC submission\|\|\|ts=20190529181655\|u=Margravius\|ns=118}}

Single particle extinction and scattering: Difference between revisions