Nanocasting nanoporous nickel oxides from mesoporous silicas and their comparative catalytic applications for the reduction of p-nitrophenol

[Display omitted] •Nanoporous nickel oxides were fabricatied by nanocasting.•MCM-41 and KCC-1 were used as the mesoporous silica templates.•The resulting nanoporous nickel oxides resembled a replica of each template's inner architecture.•Nanoporous nickel oxides are used for the reduction of p-...

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Vydané v:	Chemical physics letters Ročník 803; s. 139809
Hlavní autori:	Fadhli, Erika, Denanti, Mardiana, St, Rasrendra, Carolus B., Khalil, Munawar, Kadja, Grandprix T.M.
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Elsevier B.V 16.09.2022
Predmet:	KCC-1 MCM-41 NiO p-nitrophenol p-nitrophenol MCM-41 NiO KCC-1
ISSN:	0009-2614
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Abstract	[Display omitted] •Nanoporous nickel oxides were fabricatied by nanocasting.•MCM-41 and KCC-1 were used as the mesoporous silica templates.•The resulting nanoporous nickel oxides resembled a replica of each template's inner architecture.•Nanoporous nickel oxides are used for the reduction of p-nitrophenol.•NiO-MCM presents higher catalytic properties than NiO-KCC due to a better improved molecular diffusion. Herein, nanoporous nickel oxides were prepared through nanocasting using ordered- and less-ordered mesoporous silica templates, i.e., MCM-41 and KCC-1, respectively. The products resembled the replica of the inner architecture of each template. NiO-MCM-41 (nanocasted in MCM-41) possessed a highly ordered structure originating from the arrangement of nanorods resulting in a large specific surface area of 53 m2 g−1. On the other hand, NiO-KCC-1 (nanocasted in KCC-1) exhibited the combination of ordered nanorod and non-ordered foam-like structures with a less specific surface area of 23 m2 g−1. Ultimately, the catalytic tests in the reduction of p-nitrophenol (p-NP) with sodium borohydride (NaBH4) demonstrated that NiO-MCM-41 had significantly higher activity (kobs = 0.25 min−1) and better reusability (p-NP conversion of 92% after 3 times reactions) than those of NiO-KCC-1 (kobs = 0.14 min−1 and a 35% p-NP conversion after 3 times reactions) due to the more improved molecular diffusion within a highly ordered structure. The preferred mechanism was found to follow the Langmuir–Hinshelwood route in which both reactants (p-NP and [BH4]−) were initially adsorbed onto the surface of the catalyst.
AbstractList	[Display omitted] •Nanoporous nickel oxides were fabricatied by nanocasting.•MCM-41 and KCC-1 were used as the mesoporous silica templates.•The resulting nanoporous nickel oxides resembled a replica of each template's inner architecture.•Nanoporous nickel oxides are used for the reduction of p-nitrophenol.•NiO-MCM presents higher catalytic properties than NiO-KCC due to a better improved molecular diffusion. Herein, nanoporous nickel oxides were prepared through nanocasting using ordered- and less-ordered mesoporous silica templates, i.e., MCM-41 and KCC-1, respectively. The products resembled the replica of the inner architecture of each template. NiO-MCM-41 (nanocasted in MCM-41) possessed a highly ordered structure originating from the arrangement of nanorods resulting in a large specific surface area of 53 m2 g−1. On the other hand, NiO-KCC-1 (nanocasted in KCC-1) exhibited the combination of ordered nanorod and non-ordered foam-like structures with a less specific surface area of 23 m2 g−1. Ultimately, the catalytic tests in the reduction of p-nitrophenol (p-NP) with sodium borohydride (NaBH4) demonstrated that NiO-MCM-41 had significantly higher activity (kobs = 0.25 min−1) and better reusability (p-NP conversion of 92% after 3 times reactions) than those of NiO-KCC-1 (kobs = 0.14 min−1 and a 35% p-NP conversion after 3 times reactions) due to the more improved molecular diffusion within a highly ordered structure. The preferred mechanism was found to follow the Langmuir–Hinshelwood route in which both reactants (p-NP and [BH4]−) were initially adsorbed onto the surface of the catalyst.
ArticleNumber	139809
Author	Mardiana, St Khalil, Munawar Erika, Denanti Fadhli Kadja, Grandprix T.M. Rasrendra, Carolus B.
Author_xml	– sequence: 1 surname: Fadhli fullname: Fadhli organization: Department of Chemical Engineering, Faculty of Industrial Technology, Institut Teknologi Bandung, Jl. Ganesha No. 10, Bandung 40132, Indonesia – sequence: 2 givenname: Denanti surname: Erika fullname: Erika, Denanti organization: Division of Inorganic and Physical Chemistry, Faculty of Mathematics and Natural Sciences, Institut Teknologi Bandung, Jl. Ganesha No. 10, Bandung 40132, Indonesia – sequence: 3 givenname: St surname: Mardiana fullname: Mardiana, St organization: Division of Inorganic and Physical Chemistry, Faculty of Mathematics and Natural Sciences, Institut Teknologi Bandung, Jl. Ganesha No. 10, Bandung 40132, Indonesia – sequence: 4 givenname: Carolus B. surname: Rasrendra fullname: Rasrendra, Carolus B. organization: Department of Chemical Engineering, Faculty of Industrial Technology, Institut Teknologi Bandung, Jl. Ganesha No. 10, Bandung 40132, Indonesia – sequence: 5 givenname: Munawar surname: Khalil fullname: Khalil, Munawar organization: Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Indonesia, Depok 16424, Indonesia – sequence: 6 givenname: Grandprix T.M. surname: Kadja fullname: Kadja, Grandprix T.M. email: grandprix.thomryes@itb.ac.id organization: Center for Catalysis and Reaction Engineering, Institut Teknologi Bandung, Jl. Ganesha No. 10, Bandung 40132, Indonesia
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Snippet	[Display omitted] •Nanoporous nickel oxides were fabricatied by nanocasting.•MCM-41 and KCC-1 were used as the mesoporous silica templates.•The resulting...
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SubjectTerms	KCC-1 MCM-41 NiO p-nitrophenol
Title	Nanocasting nanoporous nickel oxides from mesoporous silicas and their comparative catalytic applications for the reduction of p-nitrophenol
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