Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides

An adequate account of the hydrolytic properties of Cr3+ and Ni2+ allows setting the conditions for homogeneous nucleation of layered Ni(II)-Cr(III) double hydroxides; water exchange and hydrolysis rate constants indicate that, at very high rates of base dosing, formation of heteronuclear Cr(III)-Ni...

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Detalles Bibliográficos
Autor principal: Jobbagy, Matias
Publicado: 2007
Materias:
Chromium hydroxide
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Chromium alloys
Dangling bonds
Hydrolysis
Microwaves
Nucleation
Precipitation (chemical)
Urea
Nickel alloys
carbon dioxide
chromium
hydroxide
hydroxyl group
nickel
water
aging
article
chemical stress
crystal
hydrolysis
microwave radiation
particulate matter
polymerization
precipitation
priority journal
synthesis
urea cycle
water temperature
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00219797_v309_n1_p72_Jobbagy
http://hdl.handle.net/20.500.12110/paper_00219797_v309_n1_p72_Jobbagy
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling paper:paper_00219797_v309_n1_p72_Jobbagy2023-06-08T14:44:55Z Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides Jobbagy, Matias Chromium hydroxide Homogeneous precipitation Hydrotalcites Layered double hydroxides Nickel hydroxide Chromium alloys Dangling bonds Hydrolysis Microwaves Nucleation Precipitation (chemical) Urea Homogeneous precipitation Hydrotalcites Layered double hydroxides Nickel hydroxide Nickel alloys carbon dioxide chromium hydroxide hydroxyl group nickel water aging article chemical stress crystal hydrolysis microwave radiation particulate matter polymerization precipitation priority journal synthesis urea cycle water temperature An adequate account of the hydrolytic properties of Cr3+ and Ni2+ allows setting the conditions for homogeneous nucleation of layered Ni(II)-Cr(III) double hydroxides; water exchange and hydrolysis rate constants indicate that, at very high rates of base dosing, formation of heteronuclear Cr(III)-Ni(II) hydroxo species should prevail over precipitation of active Cr(OH)3. This is realized by the urea method under microwave-assisted hydrothermal conditions. This approach yields crystalline Ni1-xCrx(OH)2(CO3)x/2ṡnH2O (x ≈ 0.32 - 0.36) in less than 5 min at 453 K; higher degrees of crystallinity are obtained at higher temperatures and/or longer aging times. Formation of Ni(II)-Cr(III) LDHs upon microwave-assisted hydrothermal aging of freshly coprecipitated Ni(OH)2 + Cr(OH)3 mixtures takes longer, due to a different operating mechanism. The implications of the advanced rationale for the design of synthesis procedures are stressed. It is proposed that homogeneous nucleation of Ni(II)-Cr(III) LDHs involves the edge-on condensation of planar heteronuclear Cr(III)-Ni(II) hydroxo trimers. Ordered aggregation of primary particles leads to the final platelet crystals, a process that involves the exchange of CO2-3 ions dangling at the crystallites' edges by bridging OH-. © 2007 Elsevier Inc. All rights reserved. Fil:Jobbágy, M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2007 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00219797_v309_n1_p72_Jobbagy http://hdl.handle.net/20.500.12110/paper_00219797_v309_n1_p72_Jobbagy
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Chromium hydroxide
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Chromium alloys
Dangling bonds
Hydrolysis
Microwaves
Nucleation
Precipitation (chemical)
Urea
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Nickel alloys
carbon dioxide
chromium
hydroxide
hydroxyl group
nickel
water
aging
article
chemical stress
crystal
hydrolysis
microwave radiation
particulate matter
polymerization
precipitation
priority journal
synthesis
urea cycle
water temperature
spellingShingle Chromium hydroxide
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Chromium alloys
Dangling bonds
Hydrolysis
Microwaves
Nucleation
Precipitation (chemical)
Urea
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Nickel alloys
carbon dioxide
chromium
hydroxide
hydroxyl group
nickel
water
aging
article
chemical stress
crystal
hydrolysis
microwave radiation
particulate matter
polymerization
precipitation
priority journal
synthesis
urea cycle
water temperature
Jobbagy, Matias
Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides
topic_facet Chromium hydroxide
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Chromium alloys
Dangling bonds
Hydrolysis
Microwaves
Nucleation
Precipitation (chemical)
Urea
Homogeneous precipitation
Hydrotalcites
Layered double hydroxides
Nickel hydroxide
Nickel alloys
carbon dioxide
chromium
hydroxide
hydroxyl group
nickel
water
aging
article
chemical stress
crystal
hydrolysis
microwave radiation
particulate matter
polymerization
precipitation
priority journal
synthesis
urea cycle
water temperature
description An adequate account of the hydrolytic properties of Cr3+ and Ni2+ allows setting the conditions for homogeneous nucleation of layered Ni(II)-Cr(III) double hydroxides; water exchange and hydrolysis rate constants indicate that, at very high rates of base dosing, formation of heteronuclear Cr(III)-Ni(II) hydroxo species should prevail over precipitation of active Cr(OH)3. This is realized by the urea method under microwave-assisted hydrothermal conditions. This approach yields crystalline Ni1-xCrx(OH)2(CO3)x/2ṡnH2O (x ≈ 0.32 - 0.36) in less than 5 min at 453 K; higher degrees of crystallinity are obtained at higher temperatures and/or longer aging times. Formation of Ni(II)-Cr(III) LDHs upon microwave-assisted hydrothermal aging of freshly coprecipitated Ni(OH)2 + Cr(OH)3 mixtures takes longer, due to a different operating mechanism. The implications of the advanced rationale for the design of synthesis procedures are stressed. It is proposed that homogeneous nucleation of Ni(II)-Cr(III) LDHs involves the edge-on condensation of planar heteronuclear Cr(III)-Ni(II) hydroxo trimers. Ordered aggregation of primary particles leads to the final platelet crystals, a process that involves the exchange of CO2-3 ions dangling at the crystallites' edges by bridging OH-. © 2007 Elsevier Inc. All rights reserved.
author Jobbagy, Matias
author_facet Jobbagy, Matias
author_sort Jobbagy, Matias
title Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides
title_short Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides
title_full Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides
title_fullStr Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides
title_full_unstemmed Homogeneous precipitation of layered Ni(II)-Cr(III) double hydroxides
title_sort homogeneous precipitation of layered ni(ii)-cr(iii) double hydroxides
publishDate 2007
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00219797_v309_n1_p72_Jobbagy
http://hdl.handle.net/20.500.12110/paper_00219797_v309_n1_p72_Jobbagy
work_keys_str_mv AT jobbagymatias homogeneousprecipitationoflayeredniiicriiidoublehydroxides
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