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• W2517887532 endingPage "150" @default.
• W2517887532 startingPage "150" @default.
• W2517887532 abstract "Nanostructured materials have emerged as a key research field in order to confer materials with unique or enhanced properties. The performance of nanocomposites depends on a number of parameters, but the suitable dispersion of nanoparticles remains the key in order to obtain the full nanocomposites' potential in terms of, e.g., flame retardance, mechanical, barrier, thermal properties, etc. Likewise, the performance of nanocoatings to obtain, for example, tailored surface affinity with selected liquids (e.g., for self-cleaning ability or anti-fog properties), protective effects against flame propagation, ultra violet (UV) radiation or gas permeation, is highly dependent on the nanocoating's thickness and homogeneity. In terms of recent advances in the monitoring of nanocomposites and nanocoatings, this review discusses commonly-used offline characterization approaches, as well as promising inline systems. All in all, having good control over both the dispersion and thickness of these materials would help with reaching optimal and consistent properties to allow nanocomposites to extend their use." @default.
• W2517887532 created "2016-09-16" @default.
• W2517887532 creator A5021166613 @default.
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• W2517887532 date "2016-08-19" @default.
• W2517887532 modified "2023-10-14" @default.
• W2517887532 title "Recent Prospects in the Inline Monitoring of Nanocomposites and Nanocoatings by Optical Technologies" @default.
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• W2517887532 cites W1867302411 @default.
• W2517887532 cites W1904133286 @default.
• W2517887532 cites W1965763513 @default.
• W2517887532 cites W1967412472 @default.
• W2517887532 cites W1967618255 @default.
• W2517887532 cites W1968397263 @default.
• W2517887532 cites W1969528612 @default.
• W2517887532 cites W1973965731 @default.
• W2517887532 cites W1979188713 @default.
• W2517887532 cites W1981339964 @default.
• W2517887532 cites W1983705313 @default.
• W2517887532 cites W1984012670 @default.
• W2517887532 cites W1985845564 @default.
• W2517887532 cites W1988287184 @default.
• W2517887532 cites W1991340682 @default.
• W2517887532 cites W1991571629 @default.
• W2517887532 cites W1991573501 @default.
• W2517887532 cites W1992280917 @default.
• W2517887532 cites W1994837952 @default.
• W2517887532 cites W1995177403 @default.
• W2517887532 cites W1997248037 @default.
• W2517887532 cites W2003621539 @default.
• W2517887532 cites W2007253842 @default.
• W2517887532 cites W2011013467 @default.
• W2517887532 cites W2011472471 @default.
• W2517887532 cites W2014935324 @default.
• W2517887532 cites W2028410686 @default.
• W2517887532 cites W2029675668 @default.
• W2517887532 cites W2032296440 @default.
• W2517887532 cites W2033365398 @default.
• W2517887532 cites W2034925096 @default.
• W2517887532 cites W2035336637 @default.
• W2517887532 cites W2039674602 @default.
• W2517887532 cites W2040127327 @default.
• W2517887532 cites W2040257040 @default.
• W2517887532 cites W2040970685 @default.
• W2517887532 cites W2042661461 @default.
• W2517887532 cites W2043559209 @default.
• W2517887532 cites W2048783102 @default.
• W2517887532 cites W2051584593 @default.
• W2517887532 cites W2052824336 @default.
• W2517887532 cites W2053648602 @default.
• W2517887532 cites W2059659173 @default.
• W2517887532 cites W2061279681 @default.
• W2517887532 cites W2069022263 @default.
• W2517887532 cites W2069402155 @default.
• W2517887532 cites W2070593019 @default.
• W2517887532 cites W2075279753 @default.
• W2517887532 cites W2078270919 @default.
• W2517887532 cites W2078839385 @default.
• W2517887532 cites W2079915179 @default.
• W2517887532 cites W2086785941 @default.
• W2517887532 cites W2087982063 @default.
• W2517887532 cites W2088274200 @default.
• W2517887532 cites W2088637970 @default.
• W2517887532 cites W2091343606 @default.
• W2517887532 cites W2091954820 @default.
• W2517887532 cites W2102705069 @default.
• W2517887532 cites W2102799310 @default.
• W2517887532 cites W2105185238 @default.
• W2517887532 cites W2105232408 @default.
• W2517887532 cites W2114351820 @default.
• W2517887532 cites W2120029603 @default.
• W2517887532 cites W2121297136 @default.
• W2517887532 cites W2125869179 @default.
• W2517887532 cites W2130166311 @default.
• W2517887532 cites W2130567346 @default.
• W2517887532 cites W2136661751 @default.
• W2517887532 cites W2146369823 @default.
• W2517887532 cites W2147182795 @default.
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• W2517887532 doi "https://doi.org/10.3390/nano6080150" @default.
• W2517887532 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5224628" @default.
• W2517887532 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28335278" @default.
• W2517887532 hasPublicationYear "2016" @default.
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