Effect of chemical heterogeneity on photoluminescence of graphite oxide treated with S-/N-containing modifiers

•An easy solvothermal method for obtaining S- and N-codoped GO is proposed.•The modifications result in the GO surface of developed chemical heterogeneity.•Modified GO of high chemical heterogeneity exhibits photoluminescence properties.•Addition of silver quenches the luminesce signal suggesting se...

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Veröffentlicht in:	Applied surface science 2015-03, Vol.332, p.272-280
Hauptverfasser:	Ebrahim, Amani M., Rodríguez-Castellón, Enrique, Montenegro, José María, Bandosz, Teresa J.
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Sprache:	eng
Schlagworte:	Chemical heterogeneity Graphene Graphite Graphite oxide Heterogeneity Oxides Photoluminescence Polystyrene resins Sulfonates Sulfur Surface functional groups
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creator	Ebrahim, Amani M. Rodríguez-Castellón, Enrique Montenegro, José María Bandosz, Teresa J.
description	•An easy solvothermal method for obtaining S- and N-codoped GO is proposed.•The modifications result in the GO surface of developed chemical heterogeneity.•Modified GO of high chemical heterogeneity exhibits photoluminescence properties.•Addition of silver quenches the luminesce signal suggesting sensing properties.•The polar functional groups are the potential seeds for composite formation. Graphite oxide (GO) obtained using Hummers method was modified by hydrothermal treatment either with sulfanilic acid or polystyrene (3-ammonium) sulfonate at 100°C or 85°C, respectively. Both modifiers contain sulfur in the oxidized forms and nitrogen in the reduced forms. The materials were characterized using FTIR, XPS, thermal analysis, potentiometric titration and SEM. Their photoluminescent properties and their alteration with an addition of Ag+ were also measured. As a result of these modifications nitrogen was introduced to the graphene layers as amines, imides, amides, and sulfur as sulfones and sulfonic acids. Moreover, the presence of polyaniline was detected. This significantly affected the polarity, acid–base character, and conductivity of the materials. Apparently carboxylic groups of GO were involved in the surface reactions. The modified GOs lost their layered structure and the modifications resulted in the high degree of structural and chemical heterogeneity. Photoluminescence in visible light was recorded and linked to the presence of heteroatoms. For the polystyrene (3-ammonium) sulfonate modified sample addition of Ag+ quenched the photoluminescence at low wavelength showing sensitivity as a possible optical detector. No apparent effect was found for the sulfanilic acid modified sample.
doi_str_mv	10.1016/j.apsusc.2015.01.114
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Graphite oxide (GO) obtained using Hummers method was modified by hydrothermal treatment either with sulfanilic acid or polystyrene (3-ammonium) sulfonate at 100°C or 85°C, respectively. Both modifiers contain sulfur in the oxidized forms and nitrogen in the reduced forms. The materials were characterized using FTIR, XPS, thermal analysis, potentiometric titration and SEM. Their photoluminescent properties and their alteration with an addition of Ag+ were also measured. As a result of these modifications nitrogen was introduced to the graphene layers as amines, imides, amides, and sulfur as sulfones and sulfonic acids. Moreover, the presence of polyaniline was detected. This significantly affected the polarity, acid–base character, and conductivity of the materials. Apparently carboxylic groups of GO were involved in the surface reactions. The modified GOs lost their layered structure and the modifications resulted in the high degree of structural and chemical heterogeneity. Photoluminescence in visible light was recorded and linked to the presence of heteroatoms. For the polystyrene (3-ammonium) sulfonate modified sample addition of Ag+ quenched the photoluminescence at low wavelength showing sensitivity as a possible optical detector. 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Graphite oxide (GO) obtained using Hummers method was modified by hydrothermal treatment either with sulfanilic acid or polystyrene (3-ammonium) sulfonate at 100°C or 85°C, respectively. Both modifiers contain sulfur in the oxidized forms and nitrogen in the reduced forms. The materials were characterized using FTIR, XPS, thermal analysis, potentiometric titration and SEM. Their photoluminescent properties and their alteration with an addition of Ag+ were also measured. As a result of these modifications nitrogen was introduced to the graphene layers as amines, imides, amides, and sulfur as sulfones and sulfonic acids. Moreover, the presence of polyaniline was detected. This significantly affected the polarity, acid–base character, and conductivity of the materials. Apparently carboxylic groups of GO were involved in the surface reactions. The modified GOs lost their layered structure and the modifications resulted in the high degree of structural and chemical heterogeneity. Photoluminescence in visible light was recorded and linked to the presence of heteroatoms. For the polystyrene (3-ammonium) sulfonate modified sample addition of Ag+ quenched the photoluminescence at low wavelength showing sensitivity as a possible optical detector. 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Graphite oxide (GO) obtained using Hummers method was modified by hydrothermal treatment either with sulfanilic acid or polystyrene (3-ammonium) sulfonate at 100°C or 85°C, respectively. Both modifiers contain sulfur in the oxidized forms and nitrogen in the reduced forms. The materials were characterized using FTIR, XPS, thermal analysis, potentiometric titration and SEM. Their photoluminescent properties and their alteration with an addition of Ag+ were also measured. As a result of these modifications nitrogen was introduced to the graphene layers as amines, imides, amides, and sulfur as sulfones and sulfonic acids. Moreover, the presence of polyaniline was detected. This significantly affected the polarity, acid–base character, and conductivity of the materials. Apparently carboxylic groups of GO were involved in the surface reactions. The modified GOs lost their layered structure and the modifications resulted in the high degree of structural and chemical heterogeneity. Photoluminescence in visible light was recorded and linked to the presence of heteroatoms. For the polystyrene (3-ammonium) sulfonate modified sample addition of Ag+ quenched the photoluminescence at low wavelength showing sensitivity as a possible optical detector. No apparent effect was found for the sulfanilic acid modified sample.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.apsusc.2015.01.114</doi><tpages>9</tpages></addata></record>
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source	ScienceDirect Journals (5 years ago - present)
subjects	Chemical heterogeneity Graphene Graphite Graphite oxide Heterogeneity Oxides Photoluminescence Polystyrene resins Sulfonates Sulfur Surface functional groups
title	Effect of chemical heterogeneity on photoluminescence of graphite oxide treated with S-/N-containing modifiers
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