In situ diagnostics for nanomaterial synthesis in carbon arc plasma

B. C. Stratton; A. Gerakis; I. Kaganovich; M. Keidar; A. Khrabry; J. Mitrani; Y. Raitses; M. N. Shneider; V. Vekselman; S. Yatom

doi:10.1088/1361-6595/aad3fa

In situ diagnostics for nanomaterial synthesis in carbon arc plasma

B. C. Stratton, A. Gerakis, I. Kaganovich, M. Keidar, A. Khrabry, J. Mitrani, Y. Raitses, M. N. Shneider, V. Vekselman, S. Yatom

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12 Scopus citations

Abstract

Developments in the recent application of in situ diagnostics to improve understanding of nanomaterial synthesis processes in carbon arc plasma are summarized. These diagnostics measure the plasma conditions in the arc core and the precursor species to nanoparticle formation and the presence and sizes of nanoparticles in the synthesis region surrounding the hot arc core. They provide information that could not be obtained by the ex situ diagnostics used in previous studies of nanomaterial synthesis in arc plasma. The following diagnostics are covered: optical emission spectroscopy, planar laser induced fluorescence, laser induced incandescence, fast frame imaging, coherent Rayleigh Brillouin scattering, and the nanomaterial extractor probe. The diagnostic measurements are consistent with a recently developed two-dimensional fluid model of nanomaterial synthesis in the arc plasma.

Original language	English (US)
Article number	084001
Journal	Plasma Sources Science and Technology
Volume	27
Issue number	8
DOIs	https://doi.org/10.1088/1361-6595/aad3fa
State	Published - Aug 7 2018

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

Keywords

arc plasma
diagnostics
nanomaterials

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10.1088/1361-6595/aad3fa

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title = "In situ diagnostics for nanomaterial synthesis in carbon arc plasma",

abstract = "Developments in the recent application of in situ diagnostics to improve understanding of nanomaterial synthesis processes in carbon arc plasma are summarized. These diagnostics measure the plasma conditions in the arc core and the precursor species to nanoparticle formation and the presence and sizes of nanoparticles in the synthesis region surrounding the hot arc core. They provide information that could not be obtained by the ex situ diagnostics used in previous studies of nanomaterial synthesis in arc plasma. The following diagnostics are covered: optical emission spectroscopy, planar laser induced fluorescence, laser induced incandescence, fast frame imaging, coherent Rayleigh Brillouin scattering, and the nanomaterial extractor probe. The diagnostic measurements are consistent with a recently developed two-dimensional fluid model of nanomaterial synthesis in the arc plasma.",

keywords = "arc plasma, diagnostics, nanomaterials",

author = "Stratton, {B. C.} and A. Gerakis and I. Kaganovich and M. Keidar and A. Khrabry and J. Mitrani and Y. Raitses and Shneider, {M. N.} and V. Vekselman and S. Yatom",

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doi = "10.1088/1361-6595/aad3fa",

language = "English (US)",

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TY - JOUR

T1 - In situ diagnostics for nanomaterial synthesis in carbon arc plasma

AU - Stratton, B. C.

AU - Gerakis, A.

AU - Kaganovich, I.

AU - Keidar, M.

AU - Khrabry, A.

AU - Mitrani, J.

AU - Raitses, Y.

AU - Shneider, M. N.

AU - Vekselman, V.

AU - Yatom, S.

PY - 2018/8/7

Y1 - 2018/8/7

N2 - Developments in the recent application of in situ diagnostics to improve understanding of nanomaterial synthesis processes in carbon arc plasma are summarized. These diagnostics measure the plasma conditions in the arc core and the precursor species to nanoparticle formation and the presence and sizes of nanoparticles in the synthesis region surrounding the hot arc core. They provide information that could not be obtained by the ex situ diagnostics used in previous studies of nanomaterial synthesis in arc plasma. The following diagnostics are covered: optical emission spectroscopy, planar laser induced fluorescence, laser induced incandescence, fast frame imaging, coherent Rayleigh Brillouin scattering, and the nanomaterial extractor probe. The diagnostic measurements are consistent with a recently developed two-dimensional fluid model of nanomaterial synthesis in the arc plasma.

AB - Developments in the recent application of in situ diagnostics to improve understanding of nanomaterial synthesis processes in carbon arc plasma are summarized. These diagnostics measure the plasma conditions in the arc core and the precursor species to nanoparticle formation and the presence and sizes of nanoparticles in the synthesis region surrounding the hot arc core. They provide information that could not be obtained by the ex situ diagnostics used in previous studies of nanomaterial synthesis in arc plasma. The following diagnostics are covered: optical emission spectroscopy, planar laser induced fluorescence, laser induced incandescence, fast frame imaging, coherent Rayleigh Brillouin scattering, and the nanomaterial extractor probe. The diagnostic measurements are consistent with a recently developed two-dimensional fluid model of nanomaterial synthesis in the arc plasma.

KW - arc plasma

KW - diagnostics

KW - nanomaterials

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JO - Plasma Sources Science and Technology

JF - Plasma Sources Science and Technology

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M1 - 084001

ER -

In situ diagnostics for nanomaterial synthesis in carbon arc plasma

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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