Insights into the Phosphate Species on Niobia Treated with H3PO4

Solid acid catalysts are largely used in several industrial processes, and the development of materials with high activity, selectivity and reusability is a subject of study of research groups around the world. The improvement of oxide acidity could be performed by phosphation with phosphoric acid b...

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Published inCatalysis letters Vol. 150; no. 5; pp. 1496 - 1504
Main Authors Rocha, Angela S., Costa, Gustavo C., de Araujo, Lúcia R. Raddi, Misael, Wilken A., Oliveira, Ricardo R., Rocha, Alexandre B.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.05.2020
Springer Nature B.V
Springer Verlag
Subjects
Acetic acid
Acids
Ammonia
Catalysis
Catalysts
Chemical Sciences
Chemisorption
Chemistry
Chemistry and Materials Science
Esterification
Ethanol
Industrial Chemistry/Chemical Engineering
Materials selection
or physical chemistry
Organometallic Chemistry
Phosphoric acid
Physical Chemistry
Selectivity
Theoretical and
Theoretical calculation
Solid acid
Phosphated niobia
Esterification
Online AccessGet full text
ISSN1011-372X
1572-879X
DOI10.1007/s10562-019-03056-3

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Abstract Solid acid catalysts are largely used in several industrial processes, and the development of materials with high activity, selectivity and reusability is a subject of study of research groups around the world. The improvement of oxide acidity could be performed by phosphation with phosphoric acid but the investigation of phosphated niobia is still incipient. In this work, niobia was treated with phosphoric acid solutions to generate catalysts with higher esterification activity at mild condition. The phosphated catalysts were obtained and characterized by XRD, N 2 adsorption, NH 3 and pyridine chemisorption and FTIR, and were tested in the esterification of acetic acid with ethanol at 60 °C and RT. DFPT calculations indicated that H 2 PO 4 group was the predominant phosphate species on the hydroxylated surface. Theoretical results also show that ethanol adsorbs preferentially at H 2 PO 4 acidic sites on the phosphated catalyst as compared to acetic acid. Graphic Abstract
AbstractList Solid acid catalysts are largely used in several industrial processes, and the development of materials with high activity, selectivity and reusability is a subject of study of research groups around the world. The improvement of oxide acidity could be performed by phosphation with phosphoric acid but the investigation of phosphated niobia is still incipient. In this work, niobia was treated with phosphoric acid solutions to generate catalysts with higher esterification activity at mild condition. The phosphated catalysts were obtained and characterized by XRD, N2 adsorption, NH3 and pyridine chemisorption and FTIR, and were tested in the esterification of acetic acid with ethanol at 60 °C and RT. DFPT calculations indicated that H2PO4 group was the predominant phosphate species on the hydroxylated surface. Theoretical results also show that ethanol adsorbs preferentially at H2PO4 acidic sites on the phosphated catalyst as compared to acetic acid.Graphic Abstract
Solid acid catalysts are largely used in several industrial processes, and the development of materials with high activity, selectivity and reusability is a subject of study of research groups around the world. The improvement of oxide acidity could be performed by phosphation with phosphoric acid but the investigation of phosphated niobia is still incipient. In this work, niobia was treated with phosphoric acid solutions to generate catalysts with higher esterification activity at mild condition. The phosphated catalysts were obtained and characterized by XRD, N 2 adsorption, NH 3 and pyridine chemisorption and FTIR, and were tested in the esterification of acetic acid with ethanol at 60 °C and RT. DFPT calculations indicated that H 2 PO 4 group was the predominant phosphate species on the hydroxylated surface. Theoretical results also show that ethanol adsorbs preferentially at H 2 PO 4 acidic sites on the phosphated catalyst as compared to acetic acid. Graphic Abstract
Author Oliveira, Ricardo R.
Misael, Wilken A.
Rocha, Angela S.
Rocha, Alexandre B.
de Araujo, Lúcia R. Raddi
Costa, Gustavo C.
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  givenname: Wilken A.
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  givenname: Alexandre B.
  surname: Rocha
  fullname: Rocha, Alexandre B.
  organization: Departamento de Físico-Química, Instituto de Química, Universidade Federal do Rio de Janeiro
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CitedBy_id crossref_primary_10_1007_s10562_020_03510_7
crossref_primary_10_1016_j_apsusc_2021_150727
crossref_primary_10_3390_catal11091077
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Springer Science+Business Media, LLC, part of Springer Nature 2019.
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Issue 5
Keywords Theoretical calculation
Solid acid
Phosphated niobia
Esterification
Language English
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SubjectTerms Acetic acid
Acids
Ammonia
Catalysis
Catalysts
Chemical Sciences
Chemisorption
Chemistry
Chemistry and Materials Science
Esterification
Ethanol
Industrial Chemistry/Chemical Engineering
Materials selection
or physical chemistry
Organometallic Chemistry
Phosphoric acid
Physical Chemistry
Selectivity
Theoretical and
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Title Insights into the Phosphate Species on Niobia Treated with H3PO4
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