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• W2103752718 endingPage "739" @default.
• W2103752718 startingPage "726" @default.
• W2103752718 abstract "For decades, plasma processing of materials on the nanoscale has been an underlying enabling technology for many ldquoplanarrdquo technologies, particularly virtually every aspect of modern electronics from integrated-circuit fabrication with nanoscale elements to the newest generation of photovoltaics. However, it is only recent developments that suggest that plasma processing can be used to make ldquoparticulaterdquo structures of value in fields, including catalysis, drug delivery, imaging, higher energy density batteries, and other forms of energy storage. In this paper, the development of the science and technology of one class of plasma production of particulates, namely, aerosol-through-plasma (A-T-P), is reviewed. Various plasma systems, particularly RF and microwave, have been used to create nanoparticles of metals and ceramics, as well as supported metal catalysts. Gradually, the complexity of the nanoparticles, and concomitantly their potential value, has increased. First, unique two-layer particles were generated. These were postprocessed to create unique three-layer nanoscale particles. Also, the technique has been successfully employed to make other high-value materials, including carbon nanotubes, unsupported graphene, and spherical boron nitride. Some interesting plasma science has also emerged from efforts to characterize and map aerosol-containing plasmas. For example, it is clear that even a very low concentration of particles dramatically changes plasma characteristics. Some have also argued that the local-thermodynamic-equilibrium approach is inappropriate to these systems. Instead, it has been suggested that charged- and neutral-species models must be independently developed and allowed to ldquointeractrdquo only in generation terms." @default.
• W2103752718 created "2016-06-24" @default.
• W2103752718 creator A5051221219 @default.
• W2103752718 creator A5071042512 @default.
• W2103752718 creator A5073924412 @default.
• W2103752718 date "2009-06-01" @default.
• W2103752718 modified "2023-10-11" @default.
• W2103752718 title "Review: Engineering Particles Using the Aerosol-Through-Plasma Method" @default.
• W2103752718 cites W1502273476 @default.
• W2103752718 cites W1963909653 @default.
• W2103752718 cites W1964394471 @default.
• W2103752718 cites W1964912153 @default.
• W2103752718 cites W1966204385 @default.
• W2103752718 cites W1968926738 @default.
• W2103752718 cites W1970107688 @default.
• W2103752718 cites W1970235890 @default.
• W2103752718 cites W1975095486 @default.
• W2103752718 cites W1975544660 @default.
• W2103752718 cites W1976272314 @default.
• W2103752718 cites W1976565612 @default.
• W2103752718 cites W1977263342 @default.
• W2103752718 cites W1984537793 @default.
• W2103752718 cites W1986583880 @default.
• W2103752718 cites W1986691357 @default.
• W2103752718 cites W1989577483 @default.
• W2103752718 cites W1990594008 @default.
• W2103752718 cites W1991386854 @default.
• W2103752718 cites W1994083928 @default.
• W2103752718 cites W1994129052 @default.
• W2103752718 cites W1998050200 @default.
• W2103752718 cites W1999334383 @default.
• W2103752718 cites W2001047308 @default.
• W2103752718 cites W2001460221 @default.
• W2103752718 cites W2003018560 @default.
• W2103752718 cites W2004493793 @default.
• W2103752718 cites W2004643977 @default.
• W2103752718 cites W2006290544 @default.
• W2103752718 cites W2009683764 @default.
• W2103752718 cites W2012639876 @default.
• W2103752718 cites W2012868091 @default.
• W2103752718 cites W2017739202 @default.
• W2103752718 cites W2020300729 @default.
• W2103752718 cites W2025338927 @default.
• W2103752718 cites W2028447578 @default.
• W2103752718 cites W2035443657 @default.
• W2103752718 cites W2037162366 @default.
• W2103752718 cites W2037496824 @default.
• W2103752718 cites W2037557866 @default.
• W2103752718 cites W2042454875 @default.
• W2103752718 cites W2047888717 @default.
• W2103752718 cites W2048610392 @default.
• W2103752718 cites W2049403530 @default.
• W2103752718 cites W2054633142 @default.
• W2103752718 cites W2054843449 @default.
• W2103752718 cites W2055862209 @default.
• W2103752718 cites W2058122340 @default.
• W2103752718 cites W2061364931 @default.
• W2103752718 cites W2061587903 @default.
• W2103752718 cites W2064597590 @default.
• W2103752718 cites W2069211898 @default.
• W2103752718 cites W2069762479 @default.
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• W2103752718 cites W2121806213 @default.
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• W2103752718 cites W2128654538 @default.
• W2103752718 cites W2131430454 @default.
• W2103752718 cites W2134233006 @default.
• W2103752718 cites W2136334331 @default.
• W2103752718 cites W2140017935 @default.
• W2103752718 cites W2144611965 @default.
• W2103752718 cites W2149990361 @default.
• W2103752718 cites W2157598207 @default.
• W2103752718 cites W2158149218 @default.
• W2103752718 cites W2167692747 @default.
• W2103752718 cites W2493880907 @default.
• W2103752718 cites W2503265655 @default.
• W2103752718 cites W4236086469 @default.
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• W2103752718 doi "https://doi.org/10.1109/tps.2009.2016969" @default.
• W2103752718 hasPublicationYear "2009" @default.
• W2103752718 type Work @default.
• W2103752718 sameAs 2103752718 @default.

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