Optical and electrical properties of polymerizing plasmas and their correlation with DLC film properties
Much has been discovered about the effect of the parameters used in chemical vapor deposition on the properties of DLC films. Relatively little, however, is known about the basic mechanisms that lead to film formation. The major emphasis in this study is on the relationships between plasma and film...
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| Veröffentlicht in: | Plasmas and polymers 2004-03, Vol.9 (1), p.1-22 |
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| creator | RANGEL, Elidiane C DA CRUZ, Nilson C KAYAMA, Milton E RANGEL, Rita C. C MARINS, Nazir DURRANT, Steven F |
| description | Much has been discovered about the effect of the parameters used in chemical vapor deposition on the properties of DLC films. Relatively little, however, is known about the basic mechanisms that lead to film formation. The major emphasis in this study is on the relationships between plasma and film properties. Diamond-like carbon (DLC) films were grown from radiofrequency plasmas of acetylene-argon mixtures, at different excitation powers, P. The effects of this parameter on the plasma potential, electron density, electron temperature, and plasma activity were investigated using a Langmuir probe. The mean electron temperature increased from about 0.5 to about 7.0 eV while the mean electron density decreased from about 1.2 x 10(9) to about 0.2 x 10(9) CM -3 as P was increased from 25 to 150 W. Both the plasma potential and the plasma activity were found to increase with increasing P. Through actinometric optical emission spectrometry, the relative concentrations of CH, [CH], and H, [H], in the discharge were mapped as a function of the applied power. A rise in [H] and a fall in [CH] with increasing P were observed and are discussed in relation to the plasma characteristics and the subimplantation model. The optical properties of the films were calculated from ultraviolet-visible spectroscopic data; the surface resistivity was measured by the two-point probe method. The optical gap, EG, and the surface resistivity, rhos fall with increasing P. EG and rhos are in the ranges of about 2.0-1.3 eV and 1014-1016 Omega/(square), respectively. The plasma power also influences the film self-bias, Vb, via a linear dependence, and the effect of Vb on ion bombardment during growth is addressed together with variation in the relative densities of sp2 and spa bonds in the films as determined by Raman spectroscopy. |
| doi_str_mv | 10.1023/B:PAPO.0000039813.33634.c6 |
| format | Article |
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C ; MARINS, Nazir ; DURRANT, Steven F</creator><creatorcontrib>RANGEL, Elidiane C ; DA CRUZ, Nilson C ; KAYAMA, Milton E ; RANGEL, Rita C. C ; MARINS, Nazir ; DURRANT, Steven F</creatorcontrib><description>Much has been discovered about the effect of the parameters used in chemical vapor deposition on the properties of DLC films. Relatively little, however, is known about the basic mechanisms that lead to film formation. The major emphasis in this study is on the relationships between plasma and film properties. Diamond-like carbon (DLC) films were grown from radiofrequency plasmas of acetylene-argon mixtures, at different excitation powers, P. The effects of this parameter on the plasma potential, electron density, electron temperature, and plasma activity were investigated using a Langmuir probe. The mean electron temperature increased from about 0.5 to about 7.0 eV while the mean electron density decreased from about 1.2 x 10(9) to about 0.2 x 10(9) CM -3 as P was increased from 25 to 150 W. Both the plasma potential and the plasma activity were found to increase with increasing P. Through actinometric optical emission spectrometry, the relative concentrations of CH, [CH], and H, [H], in the discharge were mapped as a function of the applied power. A rise in [H] and a fall in [CH] with increasing P were observed and are discussed in relation to the plasma characteristics and the subimplantation model. The optical properties of the films were calculated from ultraviolet-visible spectroscopic data; the surface resistivity was measured by the two-point probe method. The optical gap, EG, and the surface resistivity, rhos fall with increasing P. EG and rhos are in the ranges of about 2.0-1.3 eV and 1014-1016 Omega/(square), respectively. The plasma power also influences the film self-bias, Vb, via a linear dependence, and the effect of Vb on ion bombardment during growth is addressed together with variation in the relative densities of sp2 and spa bonds in the films as determined by Raman spectroscopy.</description><identifier>ISSN: 1084-0184</identifier><identifier>EISSN: 1572-8978</identifier><identifier>DOI: 10.1023/B:PAPO.0000039813.33634.c6</identifier><identifier>CODEN: PLPOFQ</identifier><language>eng</language><publisher>Dordrecht: Kluwer</publisher><subject>Amorphous semiconductors; glasses ; Amorphous semiconductors; glasses; nanocrystalline materials ; Condensed matter: electronic structure, electrical, magnetic, and optical properties ; Cross-disciplinary physics: materials science; rheology ; Electrical properties of specific thin films ; Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures ; Exact sciences and technology ; Fullerenes and related materials; diamonds, graphite ; Materials science ; Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation ; Optical properties of specific thin films ; Physics ; Physics of gases, plasmas and electric discharges ; Physics of plasmas and electric discharges ; Plasma applications ; Specific materials</subject><ispartof>Plasmas and polymers, 2004-03, Vol.9 (1), p.1-22</ispartof><rights>2005 INIST-CNRS</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c353t-74f90ece42aa67a362dc9c2fda09f83e5cc88eb99804ba86dd74c0880f28eb503</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27923,27924</link.rule.ids><backlink>$$Uhttp://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=16159475$$DView record in Pascal Francis$$Hfree_for_read</backlink></links><search><creatorcontrib>RANGEL, Elidiane C</creatorcontrib><creatorcontrib>DA CRUZ, Nilson C</creatorcontrib><creatorcontrib>KAYAMA, Milton E</creatorcontrib><creatorcontrib>RANGEL, Rita C. C</creatorcontrib><creatorcontrib>MARINS, Nazir</creatorcontrib><creatorcontrib>DURRANT, Steven F</creatorcontrib><title>Optical and electrical properties of polymerizing plasmas and their correlation with DLC film properties</title><title>Plasmas and polymers</title><description>Much has been discovered about the effect of the parameters used in chemical vapor deposition on the properties of DLC films. Relatively little, however, is known about the basic mechanisms that lead to film formation. The major emphasis in this study is on the relationships between plasma and film properties. Diamond-like carbon (DLC) films were grown from radiofrequency plasmas of acetylene-argon mixtures, at different excitation powers, P. The effects of this parameter on the plasma potential, electron density, electron temperature, and plasma activity were investigated using a Langmuir probe. The mean electron temperature increased from about 0.5 to about 7.0 eV while the mean electron density decreased from about 1.2 x 10(9) to about 0.2 x 10(9) CM -3 as P was increased from 25 to 150 W. Both the plasma potential and the plasma activity were found to increase with increasing P. Through actinometric optical emission spectrometry, the relative concentrations of CH, [CH], and H, [H], in the discharge were mapped as a function of the applied power. A rise in [H] and a fall in [CH] with increasing P were observed and are discussed in relation to the plasma characteristics and the subimplantation model. The optical properties of the films were calculated from ultraviolet-visible spectroscopic data; the surface resistivity was measured by the two-point probe method. The optical gap, EG, and the surface resistivity, rhos fall with increasing P. EG and rhos are in the ranges of about 2.0-1.3 eV and 1014-1016 Omega/(square), respectively. The plasma power also influences the film self-bias, Vb, via a linear dependence, and the effect of Vb on ion bombardment during growth is addressed together with variation in the relative densities of sp2 and spa bonds in the films as determined by Raman spectroscopy.</description><subject>Amorphous semiconductors; glasses</subject><subject>Amorphous semiconductors; glasses; nanocrystalline materials</subject><subject>Condensed matter: electronic structure, electrical, magnetic, and optical properties</subject><subject>Cross-disciplinary physics: materials science; rheology</subject><subject>Electrical properties of specific thin films</subject><subject>Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures</subject><subject>Exact sciences and technology</subject><subject>Fullerenes and related materials; diamonds, graphite</subject><subject>Materials science</subject><subject>Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation</subject><subject>Optical properties of specific thin films</subject><subject>Physics</subject><subject>Physics of gases, plasmas and electric discharges</subject><subject>Physics of plasmas and electric discharges</subject><subject>Plasma applications</subject><subject>Specific materials</subject><issn>1084-0184</issn><issn>1572-8978</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2004</creationdate><recordtype>article</recordtype><recordid>eNqNUctKAzEUDaJgrf5DEHQ3YzJJZpLu2vqEQrvQdUgziY1kHiYjUr_embZQl97NfXDuOXAOANcYpRhl5G42WU1XyxQNRQTHJCUkJzTV-QkYYVZkCRcFP-1nxGmCMKfn4CLGjx5eMCZGYLNsO6eVh6ouofFGd2G3tqFpTeicibCxsG38tjLB_bj6HbZexUrF3Ue3MS5A3YRgvOpcU8Nv123g_WIOrfPVH5pLcGaVj-bq0Mfg7fHhdf6cLJZPL_PpItGEkS4pqBXIaEMzpfJCkTwrtdCZLRUSlhPDtObcrIXgiK4Vz8uyoBpxjmzWnxkiY3C75-2lP79M7GTlojbeq9o0X1FmoneF4n8AOaGC87wHTvZAHZoYg7GyDa5SYSsxkkMKciaHFOQxBblLQerh-eagomLvqw2q1i4eGXLMBC0Y-QVHuYsu</recordid><startdate>20040301</startdate><enddate>20040301</enddate><creator>RANGEL, Elidiane C</creator><creator>DA CRUZ, Nilson C</creator><creator>KAYAMA, Milton E</creator><creator>RANGEL, Rita C. C</creator><creator>MARINS, Nazir</creator><creator>DURRANT, Steven F</creator><general>Kluwer</general><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7U5</scope><scope>8BQ</scope><scope>8FD</scope><scope>H8D</scope><scope>JG9</scope><scope>L7M</scope><scope>7TB</scope><scope>FR3</scope></search><sort><creationdate>20040301</creationdate><title>Optical and electrical properties of polymerizing plasmas and their correlation with DLC film properties</title><author>RANGEL, Elidiane C ; DA CRUZ, Nilson C ; KAYAMA, Milton E ; RANGEL, Rita C. C ; MARINS, Nazir ; DURRANT, Steven F</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c353t-74f90ece42aa67a362dc9c2fda09f83e5cc88eb99804ba86dd74c0880f28eb503</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2004</creationdate><topic>Amorphous semiconductors; glasses</topic><topic>Amorphous semiconductors; glasses; nanocrystalline materials</topic><topic>Condensed matter: electronic structure, electrical, magnetic, and optical properties</topic><topic>Cross-disciplinary physics: materials science; rheology</topic><topic>Electrical properties of specific thin films</topic><topic>Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures</topic><topic>Exact sciences and technology</topic><topic>Fullerenes and related materials; diamonds, graphite</topic><topic>Materials science</topic><topic>Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation</topic><topic>Optical properties of specific thin films</topic><topic>Physics</topic><topic>Physics of gases, plasmas and electric discharges</topic><topic>Physics of plasmas and electric discharges</topic><topic>Plasma applications</topic><topic>Specific materials</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>RANGEL, Elidiane C</creatorcontrib><creatorcontrib>DA CRUZ, Nilson C</creatorcontrib><creatorcontrib>KAYAMA, Milton E</creatorcontrib><creatorcontrib>RANGEL, Rita C. 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The effects of this parameter on the plasma potential, electron density, electron temperature, and plasma activity were investigated using a Langmuir probe. The mean electron temperature increased from about 0.5 to about 7.0 eV while the mean electron density decreased from about 1.2 x 10(9) to about 0.2 x 10(9) CM -3 as P was increased from 25 to 150 W. Both the plasma potential and the plasma activity were found to increase with increasing P. Through actinometric optical emission spectrometry, the relative concentrations of CH, [CH], and H, [H], in the discharge were mapped as a function of the applied power. A rise in [H] and a fall in [CH] with increasing P were observed and are discussed in relation to the plasma characteristics and the subimplantation model. The optical properties of the films were calculated from ultraviolet-visible spectroscopic data; the surface resistivity was measured by the two-point probe method. The optical gap, EG, and the surface resistivity, rhos fall with increasing P. EG and rhos are in the ranges of about 2.0-1.3 eV and 1014-1016 Omega/(square), respectively. The plasma power also influences the film self-bias, Vb, via a linear dependence, and the effect of Vb on ion bombardment during growth is addressed together with variation in the relative densities of sp2 and spa bonds in the films as determined by Raman spectroscopy.</abstract><cop>Dordrecht</cop><pub>Kluwer</pub><doi>10.1023/B:PAPO.0000039813.33634.c6</doi><tpages>22</tpages></addata></record> |
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| subjects | Amorphous semiconductors glasses Amorphous semiconductors glasses nanocrystalline materials Condensed matter: electronic structure, electrical, magnetic, and optical properties Cross-disciplinary physics: materials science rheology Electrical properties of specific thin films Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures Exact sciences and technology Fullerenes and related materials diamonds, graphite Materials science Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation Optical properties of specific thin films Physics Physics of gases, plasmas and electric discharges Physics of plasmas and electric discharges Plasma applications Specific materials |
| title | Optical and electrical properties of polymerizing plasmas and their correlation with DLC film properties |
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