A comparative study of hexacyanoferrate-based Prussian blue analogue nanocrystals for catalytic reduction of 4-nitrophenol to 4-aminophenol

•MII[Fe(CN)6](MII = Fe, Mn, Co, Ni, and Zn) are used as catalysts for 4-NP reduction.•The order of catalytic activity is CoFeCN > NiFeCN > FeFeCN > MnFeCN > ZnFeCN.•CoFeCN shows a very low Ea of 32 kJ/mol and a relatively high TOF of 6.3 × 10−3 s−1.•CoFeCN & NiFeCN exhibit excellent...

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Published inSeparation and purification technology Vol. 218; pp. 138 - 145
Main Authors Wi-Afedzi, Thomas, Yeoh, Fei-Yee, Yang, Ming-Tong, Yip, Alex C.K., Lin, Kun-Yi Andrew
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2019
Subjects
4-aminophenol
4-nitrophenol
Prussian blue analogue
Reduction
Sodium borohydride
4-aminophenol
Reduction
Sodium borohydride
4-nitrophenol
Prussian blue analogue
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Abstract •MII[Fe(CN)6](MII = Fe, Mn, Co, Ni, and Zn) are used as catalysts for 4-NP reduction.•The order of catalytic activity is CoFeCN > NiFeCN > FeFeCN > MnFeCN > ZnFeCN.•CoFeCN shows a very low Ea of 32 kJ/mol and a relatively high TOF of 6.3 × 10−3 s−1.•CoFeCN & NiFeCN exhibit excellent reusabilities over 6 cycles of 4-NP reduction. Catalytic reduction of 4-nitrophenol (4-NP) represents a useful method of converting 4-NP into a more environmentally friendly product, 4-aminophenol (4-AP). Prussian blue (PB) (Fe3[Fe(CN)6]2) and its Prussian blue Analogues (PBAs) (MII[Fe(CN)6] PBAs (MII = Mn, Co, Ni, and Zn) exhibit hierarchical porous structures, and electrochemical characteristics, making PBAs promising catalysts for 4-NP reduction. Nevertheless, very few literatures report the reduction of 4-NP to 4-AP employing PBAs, and no studies have been ever conducted to evaluate the effects of different MII species of [Fe(CN)6]-based PBAs on the catalytic conversion of 4-NP to 4-AP. Herein, we examine the catalytic reductive performance of various MII[Fe(CN)6] PBAs (MII = Co, Fe, Mn, Ni, and Zn), in the presence of sodium borohydride (NaBH4), on 4-NP reduction to 4-AP. The catalytic activity of PBAs for 4-NP reduction was in the order CoFeCN > NiFeCN > FeFeCN > MnFeCN > ZnFeCN. The corresponding activation energies are determined as 32, 43, 46, 47, and 54 kJ/mol for CoFeCN, NiFeCN, MnFeCN, FeFeCN and ZnFeCN, respectively. Especially, CoFeCN shows the highest catalytic activity with a rate constant of 0.457 min−1 and a calculated turnover frequency of 6.3 × 10−3 s−1, which are higher than many reported noble metal catalysts because of its high surface area and catalytic activities towards hydrogen generation and hydrogenation. CoFeCN (and NiFeCN) also exhibit excellent reusabilities even after 6 consecutive reduction experiments. These findings demonstrate that PBAs, such as CoFeCN and NiFeCN, are highly advantageous catalysts for reduction of 4-NP and would be promising for reducing other nitro-aromatic compounds.
AbstractList •MII[Fe(CN)6](MII = Fe, Mn, Co, Ni, and Zn) are used as catalysts for 4-NP reduction.•The order of catalytic activity is CoFeCN > NiFeCN > FeFeCN > MnFeCN > ZnFeCN.•CoFeCN shows a very low Ea of 32 kJ/mol and a relatively high TOF of 6.3 × 10−3 s−1.•CoFeCN & NiFeCN exhibit excellent reusabilities over 6 cycles of 4-NP reduction. Catalytic reduction of 4-nitrophenol (4-NP) represents a useful method of converting 4-NP into a more environmentally friendly product, 4-aminophenol (4-AP). Prussian blue (PB) (Fe3[Fe(CN)6]2) and its Prussian blue Analogues (PBAs) (MII[Fe(CN)6] PBAs (MII = Mn, Co, Ni, and Zn) exhibit hierarchical porous structures, and electrochemical characteristics, making PBAs promising catalysts for 4-NP reduction. Nevertheless, very few literatures report the reduction of 4-NP to 4-AP employing PBAs, and no studies have been ever conducted to evaluate the effects of different MII species of [Fe(CN)6]-based PBAs on the catalytic conversion of 4-NP to 4-AP. Herein, we examine the catalytic reductive performance of various MII[Fe(CN)6] PBAs (MII = Co, Fe, Mn, Ni, and Zn), in the presence of sodium borohydride (NaBH4), on 4-NP reduction to 4-AP. The catalytic activity of PBAs for 4-NP reduction was in the order CoFeCN > NiFeCN > FeFeCN > MnFeCN > ZnFeCN. The corresponding activation energies are determined as 32, 43, 46, 47, and 54 kJ/mol for CoFeCN, NiFeCN, MnFeCN, FeFeCN and ZnFeCN, respectively. Especially, CoFeCN shows the highest catalytic activity with a rate constant of 0.457 min−1 and a calculated turnover frequency of 6.3 × 10−3 s−1, which are higher than many reported noble metal catalysts because of its high surface area and catalytic activities towards hydrogen generation and hydrogenation. CoFeCN (and NiFeCN) also exhibit excellent reusabilities even after 6 consecutive reduction experiments. These findings demonstrate that PBAs, such as CoFeCN and NiFeCN, are highly advantageous catalysts for reduction of 4-NP and would be promising for reducing other nitro-aromatic compounds.
Author Yang, Ming-Tong
Lin, Kun-Yi Andrew
Yeoh, Fei-Yee
Wi-Afedzi, Thomas
Yip, Alex C.K.
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  organization: Department of Environmental Engineering & Innovation and Development Center of Sustainable Agriculture & Research Center of Sustainable Energy and Nanotechnology, National Chung Hsing University, 250 Kuo-Kuang Road, Taichung, Taiwan
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  givenname: Fei-Yee
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  surname: Yeoh
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  email: feiyee@usm.my
  organization: School of Materials and Mineral Resources Engineering, Transkrian Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia
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  givenname: Ming-Tong
  surname: Yang
  fullname: Yang, Ming-Tong
  organization: Department of Environmental Engineering & Innovation and Development Center of Sustainable Agriculture & Research Center of Sustainable Energy and Nanotechnology, National Chung Hsing University, 250 Kuo-Kuang Road, Taichung, Taiwan
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  givenname: Alex C.K.
  surname: Yip
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  email: alex.yip@canterbury.ac.nz
  organization: Department of Chemical and Process Engineering, University of Canterbury, Christchurch, New Zealand
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  givenname: Kun-Yi Andrew
  surname: Lin
  fullname: Lin, Kun-Yi Andrew
  email: linky@nchu.edu.tw
  organization: Department of Environmental Engineering & Innovation and Development Center of Sustainable Agriculture & Research Center of Sustainable Energy and Nanotechnology, National Chung Hsing University, 250 Kuo-Kuang Road, Taichung, Taiwan
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Keywords 4-aminophenol
Reduction
Sodium borohydride
4-nitrophenol
Prussian blue analogue
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Snippet •MII[Fe(CN)6](MII = Fe, Mn, Co, Ni, and Zn) are used as catalysts for 4-NP reduction.•The order of catalytic activity is...
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SubjectTerms 4-aminophenol
4-nitrophenol
Prussian blue analogue
Reduction
Sodium borohydride
Title A comparative study of hexacyanoferrate-based Prussian blue analogue nanocrystals for catalytic reduction of 4-nitrophenol to 4-aminophenol
URI https://dx.doi.org/10.1016/j.seppur.2019.02.047
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