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{{Short description|Physics technique}}
'''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 (SPES)''' is a technique in [[physics]] that is used to characterise micro and [[nanoparticle
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.▼
▲A [[laser]]
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>▼
▲The technique was developed to measure aerosols in air<ref>
== References ==
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{{reflist}}
[[Category:Experimental physics]]
[[Category:Laser science]]
{{Physics-stub}}
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