Additive-free 1,4-butanediol mediated synthesis: a suitable route to obtain nanostructured, mesoporous spherical zinc oxide materials with multifunctional propertiesElectronic supplementary information (ESI) available: Thermal curves for Zn(acac)2·1.2H2O (Fig. S1), FTIR spectra for ZnOBD1-ZnOBD3 (Fig. S2), ZnOBD4, ZnOBD5 (Fig. S3) and for ZnOBD6, ZnOBD7 (Fig. S4), 1H NMR and 13C NMR spectra for ZnOBD2 (Fig. S5) and ZnOBD7 (Fig. S6), thermal curves for ZnOBD7 oxide (Fig. S7), XRD diffractograms f
A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure. The forced hydrolysis of zinc acetylacetonate in 1,4-butanediol (BD), in various reaction conditions, affords ZnO materi...
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| creator | Visinescu, Diana Scurtu, Mariana Negrea, Raluca Birjega, Ruxandra Culita, Daniela C Chifiriuc, Mariana Carmen Draghici, Constantin Moreno, Jose Calderon Musuc, Adina Magdalena Balint, Ioan Carp, Oana |
| description | A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure. The forced hydrolysis of zinc acetylacetonate in 1,4-butanediol (BD), in various reaction conditions, affords ZnO materials with versatile morphologies and optical properties. The reaction parameters (temperature, time and zinc source concentration) modulate the ZnO nanocrystallites size (from 8.1 to 13.2 nm), the spheres diameter (ranging from 50 up to 250 nm), the internal structure of the spherical aggregates (hollow or solid) and their specific surface area (from 31 to 92 m
2
g
−1
). Polycrystalline spheres with hollow cores are obtained at the lowest temperature (90 °C) and zinc cation concentration (0.1 M), while at higher reaction temperatures (140-180 °C), solid spherical aggregates are developed. A reaction mechanism for ZnO formation
via
zinc layered hydroxide (LDH-Zn) is proposed based on nuclear magnetic resonance (
1
H NMR and
13
C NMR) and powder X-ray diffraction (XRD) studies. The obtained ZnO materials have a functionalized surface, derived from the polyol and act as a nitrogen selective photocatalyst in the reduction reaction of NO
3
−
. The organic residual attached on the ZnO surface plays a crucial role in the denitrification reaction, since the photo-cleaned sample showed negligible photocatalytic activity. The ZnO materials also exhibited microbicidal and anti-biofilm activity against reference and clinical strains, highlighting their potential for the development of novel antimicrobial formulations.
A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure. |
| doi_str_mv | 10.1039/c5ra20224h |
| format | Article |
| fullrecord | <record><control><sourceid>rsc</sourceid><recordid>TN_cdi_rsc_primary_c5ra20224h</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>c5ra20224h</sourcerecordid><originalsourceid>FETCH-rsc_primary_c5ra20224h3</originalsourceid><addsrcrecordid>eNqFkkFvEzEQhRckJCrohTvScEukbFh7N1u1N2gTpQeolOaAuESO7W0G7dorezal_DHu_CfuTLcbVQgEvozl-d579shJ8kpkU5Hlp2_1LCiZSVnsniZHMivKVGbl6fPkOMYvGa9yJmQpjp78fGcMEu5tWgVrQUyKdNuRctagr6HhosgaiHeOdjZiPAMFsUNS29pC8B1ZIA9-SwodOOV8pNBp6oI1E5ZH33qmIsR2ZwNqVcM3dBr8VzQWGvYOqOoIt0g7aLqasOqcJvSOyTb41gZCG-e11RS8Q83hbVvbxjpS4Q7QVT6wDQtgNL--HIPaK6zvb3cGa45s2Ed3YW8jMAmf3Uhppcfyx3cxlUt5BaMF3kzhWownsFhfrvii91FqoK_eX4i0L_mBlEz2J8VQZ4dOzunOPCrLATg5AAVLxRI-flj1oMjP-_0fkfIgmD04_u5Ssgv97Wk99DDZAT1h9NPqAgxWVVCa_E1QDeMvk2cVj90eD_VF8noxX58v0xD1pg3Y8Gw3j18o_3__zb_6m9ZU-S_s_NSc</addsrcrecordid><sourcetype>Enrichment Source</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype></control><display><type>article</type><title>Additive-free 1,4-butanediol mediated synthesis: a suitable route to obtain nanostructured, mesoporous spherical zinc oxide materials with multifunctional propertiesElectronic supplementary information (ESI) available: Thermal curves for Zn(acac)2·1.2H2O (Fig. S1), FTIR spectra for ZnOBD1-ZnOBD3 (Fig. S2), ZnOBD4, ZnOBD5 (Fig. S3) and for ZnOBD6, ZnOBD7 (Fig. S4), 1H NMR and 13C NMR spectra for ZnOBD2 (Fig. S5) and ZnOBD7 (Fig. S6), thermal curves for ZnOBD7 oxide (Fig. S7), XRD diffractograms f</title><source>Royal Society Of Chemistry Journals 2008-</source><creator>Visinescu, Diana ; Scurtu, Mariana ; Negrea, Raluca ; Birjega, Ruxandra ; Culita, Daniela C ; Chifiriuc, Mariana Carmen ; Draghici, Constantin ; Moreno, Jose Calderon ; Musuc, Adina Magdalena ; Balint, Ioan ; Carp, Oana</creator><creatorcontrib>Visinescu, Diana ; Scurtu, Mariana ; Negrea, Raluca ; Birjega, Ruxandra ; Culita, Daniela C ; Chifiriuc, Mariana Carmen ; Draghici, Constantin ; Moreno, Jose Calderon ; Musuc, Adina Magdalena ; Balint, Ioan ; Carp, Oana</creatorcontrib><description>A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure. The forced hydrolysis of zinc acetylacetonate in 1,4-butanediol (BD), in various reaction conditions, affords ZnO materials with versatile morphologies and optical properties. The reaction parameters (temperature, time and zinc source concentration) modulate the ZnO nanocrystallites size (from 8.1 to 13.2 nm), the spheres diameter (ranging from 50 up to 250 nm), the internal structure of the spherical aggregates (hollow or solid) and their specific surface area (from 31 to 92 m
2
g
−1
). Polycrystalline spheres with hollow cores are obtained at the lowest temperature (90 °C) and zinc cation concentration (0.1 M), while at higher reaction temperatures (140-180 °C), solid spherical aggregates are developed. A reaction mechanism for ZnO formation
via
zinc layered hydroxide (LDH-Zn) is proposed based on nuclear magnetic resonance (
1
H NMR and
13
C NMR) and powder X-ray diffraction (XRD) studies. The obtained ZnO materials have a functionalized surface, derived from the polyol and act as a nitrogen selective photocatalyst in the reduction reaction of NO
3
−
. The organic residual attached on the ZnO surface plays a crucial role in the denitrification reaction, since the photo-cleaned sample showed negligible photocatalytic activity. The ZnO materials also exhibited microbicidal and anti-biofilm activity against reference and clinical strains, highlighting their potential for the development of novel antimicrobial formulations.
A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure.</description><identifier>EISSN: 2046-2069</identifier><identifier>DOI: 10.1039/c5ra20224h</identifier><language>eng</language><creationdate>2015-11</creationdate><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></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></links><search><creatorcontrib>Visinescu, Diana</creatorcontrib><creatorcontrib>Scurtu, Mariana</creatorcontrib><creatorcontrib>Negrea, Raluca</creatorcontrib><creatorcontrib>Birjega, Ruxandra</creatorcontrib><creatorcontrib>Culita, Daniela C</creatorcontrib><creatorcontrib>Chifiriuc, Mariana Carmen</creatorcontrib><creatorcontrib>Draghici, Constantin</creatorcontrib><creatorcontrib>Moreno, Jose Calderon</creatorcontrib><creatorcontrib>Musuc, Adina Magdalena</creatorcontrib><creatorcontrib>Balint, Ioan</creatorcontrib><creatorcontrib>Carp, Oana</creatorcontrib><title>Additive-free 1,4-butanediol mediated synthesis: a suitable route to obtain nanostructured, mesoporous spherical zinc oxide materials with multifunctional propertiesElectronic supplementary information (ESI) available: Thermal curves for Zn(acac)2·1.2H2O (Fig. S1), FTIR spectra for ZnOBD1-ZnOBD3 (Fig. S2), ZnOBD4, ZnOBD5 (Fig. S3) and for ZnOBD6, ZnOBD7 (Fig. S4), 1H NMR and 13C NMR spectra for ZnOBD2 (Fig. S5) and ZnOBD7 (Fig. S6), thermal curves for ZnOBD7 oxide (Fig. S7), XRD diffractograms f</title><description>A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure. The forced hydrolysis of zinc acetylacetonate in 1,4-butanediol (BD), in various reaction conditions, affords ZnO materials with versatile morphologies and optical properties. The reaction parameters (temperature, time and zinc source concentration) modulate the ZnO nanocrystallites size (from 8.1 to 13.2 nm), the spheres diameter (ranging from 50 up to 250 nm), the internal structure of the spherical aggregates (hollow or solid) and their specific surface area (from 31 to 92 m
2
g
−1
). Polycrystalline spheres with hollow cores are obtained at the lowest temperature (90 °C) and zinc cation concentration (0.1 M), while at higher reaction temperatures (140-180 °C), solid spherical aggregates are developed. A reaction mechanism for ZnO formation
via
zinc layered hydroxide (LDH-Zn) is proposed based on nuclear magnetic resonance (
1
H NMR and
13
C NMR) and powder X-ray diffraction (XRD) studies. The obtained ZnO materials have a functionalized surface, derived from the polyol and act as a nitrogen selective photocatalyst in the reduction reaction of NO
3
−
. The organic residual attached on the ZnO surface plays a crucial role in the denitrification reaction, since the photo-cleaned sample showed negligible photocatalytic activity. The ZnO materials also exhibited microbicidal and anti-biofilm activity against reference and clinical strains, highlighting their potential for the development of novel antimicrobial formulations.
A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure.</description><issn>2046-2069</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNqFkkFvEzEQhRckJCrohTvScEukbFh7N1u1N2gTpQeolOaAuESO7W0G7dorezal_DHu_CfuTLcbVQgEvozl-d579shJ8kpkU5Hlp2_1LCiZSVnsniZHMivKVGbl6fPkOMYvGa9yJmQpjp78fGcMEu5tWgVrQUyKdNuRctagr6HhosgaiHeOdjZiPAMFsUNS29pC8B1ZIA9-SwodOOV8pNBp6oI1E5ZH33qmIsR2ZwNqVcM3dBr8VzQWGvYOqOoIt0g7aLqasOqcJvSOyTb41gZCG-e11RS8Q83hbVvbxjpS4Q7QVT6wDQtgNL--HIPaK6zvb3cGa45s2Ed3YW8jMAmf3Uhppcfyx3cxlUt5BaMF3kzhWownsFhfrvii91FqoK_eX4i0L_mBlEz2J8VQZ4dOzunOPCrLATg5AAVLxRI-flj1oMjP-_0fkfIgmD04_u5Ssgv97Wk99DDZAT1h9NPqAgxWVVCa_E1QDeMvk2cVj90eD_VF8noxX58v0xD1pg3Y8Gw3j18o_3__zb_6m9ZU-S_s_NSc</recordid><startdate>20151123</startdate><enddate>20151123</enddate><creator>Visinescu, Diana</creator><creator>Scurtu, Mariana</creator><creator>Negrea, Raluca</creator><creator>Birjega, Ruxandra</creator><creator>Culita, Daniela C</creator><creator>Chifiriuc, Mariana Carmen</creator><creator>Draghici, Constantin</creator><creator>Moreno, Jose Calderon</creator><creator>Musuc, Adina Magdalena</creator><creator>Balint, Ioan</creator><creator>Carp, Oana</creator><scope/></search><sort><creationdate>20151123</creationdate><title>Additive-free 1,4-butanediol mediated synthesis: a suitable route to obtain nanostructured, mesoporous spherical zinc oxide materials with multifunctional propertiesElectronic supplementary information (ESI) available: Thermal curves for Zn(acac)2·1.2H2O (Fig. S1), FTIR spectra for ZnOBD1-ZnOBD3 (Fig. S2), ZnOBD4, ZnOBD5 (Fig. S3) and for ZnOBD6, ZnOBD7 (Fig. S4), 1H NMR and 13C NMR spectra for ZnOBD2 (Fig. S5) and ZnOBD7 (Fig. S6), thermal curves for ZnOBD7 oxide (Fig. S7), XRD diffractograms f</title><author>Visinescu, Diana ; Scurtu, Mariana ; Negrea, Raluca ; Birjega, Ruxandra ; Culita, Daniela C ; Chifiriuc, Mariana Carmen ; Draghici, Constantin ; Moreno, Jose Calderon ; Musuc, Adina Magdalena ; Balint, Ioan ; Carp, Oana</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-rsc_primary_c5ra20224h3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2015</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Visinescu, Diana</creatorcontrib><creatorcontrib>Scurtu, Mariana</creatorcontrib><creatorcontrib>Negrea, Raluca</creatorcontrib><creatorcontrib>Birjega, Ruxandra</creatorcontrib><creatorcontrib>Culita, Daniela C</creatorcontrib><creatorcontrib>Chifiriuc, Mariana Carmen</creatorcontrib><creatorcontrib>Draghici, Constantin</creatorcontrib><creatorcontrib>Moreno, Jose Calderon</creatorcontrib><creatorcontrib>Musuc, Adina Magdalena</creatorcontrib><creatorcontrib>Balint, Ioan</creatorcontrib><creatorcontrib>Carp, Oana</creatorcontrib></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Visinescu, Diana</au><au>Scurtu, Mariana</au><au>Negrea, Raluca</au><au>Birjega, Ruxandra</au><au>Culita, Daniela C</au><au>Chifiriuc, Mariana Carmen</au><au>Draghici, Constantin</au><au>Moreno, Jose Calderon</au><au>Musuc, Adina Magdalena</au><au>Balint, Ioan</au><au>Carp, Oana</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Additive-free 1,4-butanediol mediated synthesis: a suitable route to obtain nanostructured, mesoporous spherical zinc oxide materials with multifunctional propertiesElectronic supplementary information (ESI) available: Thermal curves for Zn(acac)2·1.2H2O (Fig. S1), FTIR spectra for ZnOBD1-ZnOBD3 (Fig. S2), ZnOBD4, ZnOBD5 (Fig. S3) and for ZnOBD6, ZnOBD7 (Fig. S4), 1H NMR and 13C NMR spectra for ZnOBD2 (Fig. S5) and ZnOBD7 (Fig. S6), thermal curves for ZnOBD7 oxide (Fig. S7), XRD diffractograms f</atitle><date>2015-11-23</date><risdate>2015</risdate><volume>5</volume><issue>121</issue><spage>99976</spage><epage>99989</epage><pages>99976-99989</pages><eissn>2046-2069</eissn><abstract>A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure. The forced hydrolysis of zinc acetylacetonate in 1,4-butanediol (BD), in various reaction conditions, affords ZnO materials with versatile morphologies and optical properties. The reaction parameters (temperature, time and zinc source concentration) modulate the ZnO nanocrystallites size (from 8.1 to 13.2 nm), the spheres diameter (ranging from 50 up to 250 nm), the internal structure of the spherical aggregates (hollow or solid) and their specific surface area (from 31 to 92 m
2
g
−1
). Polycrystalline spheres with hollow cores are obtained at the lowest temperature (90 °C) and zinc cation concentration (0.1 M), while at higher reaction temperatures (140-180 °C), solid spherical aggregates are developed. A reaction mechanism for ZnO formation
via
zinc layered hydroxide (LDH-Zn) is proposed based on nuclear magnetic resonance (
1
H NMR and
13
C NMR) and powder X-ray diffraction (XRD) studies. The obtained ZnO materials have a functionalized surface, derived from the polyol and act as a nitrogen selective photocatalyst in the reduction reaction of NO
3
−
. The organic residual attached on the ZnO surface plays a crucial role in the denitrification reaction, since the photo-cleaned sample showed negligible photocatalytic activity. The ZnO materials also exhibited microbicidal and anti-biofilm activity against reference and clinical strains, highlighting their potential for the development of novel antimicrobial formulations.
A family of mesoporous, self-aggregated zinc oxide materials with spherical morphologies of high crystalline quality, is obtained through a facile, additive-free polyol procedure.</abstract><doi>10.1039/c5ra20224h</doi><tpages>14</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals 2008- |
| title | Additive-free 1,4-butanediol mediated synthesis: a suitable route to obtain nanostructured, mesoporous spherical zinc oxide materials with multifunctional propertiesElectronic supplementary information (ESI) available: Thermal curves for Zn(acac)2·1.2H2O (Fig. S1), FTIR spectra for ZnOBD1-ZnOBD3 (Fig. S2), ZnOBD4, ZnOBD5 (Fig. S3) and for ZnOBD6, ZnOBD7 (Fig. S4), 1H NMR and 13C NMR spectra for ZnOBD2 (Fig. S5) and ZnOBD7 (Fig. S6), thermal curves for ZnOBD7 oxide (Fig. S7), XRD diffractograms f |
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