Perovskite-Type Oxides as the Catalyst Precursors for Preparing Supported Metallic Nanocatalysts: A Review

Industrial and nanometallic catalysts are composed of an active component of metallic nanoparticles tailored by one or more additives and/or other metals, which should be in interaction and highly dispersed on a support. Therefore, it is a tough challenge to design and prepare such complicated catal...

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Published inIndustrial & engineering chemistry research Vol. 57; no. 1; pp. 1 - 17
Main Authors Yang, Qilei, Liu, Guilong, Liu, Yuan
Format Journal Article
LanguageEnglish
Published American Chemical Society 10.01.2018
Subjects
additives
catalysts
crystallites
metal ions
metals
nanoparticles
oxides
process design
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Abstract Industrial and nanometallic catalysts are composed of an active component of metallic nanoparticles tailored by one or more additives and/or other metals, which should be in interaction and highly dispersed on a support. Therefore, it is a tough challenge to design and prepare such complicated catalysts. One promising way involves using perovskite-type oxides (PTOs, or written as ABO3 according to the composition) as the catalyst precursors. That is the subject of this Review, with the aim to provide inspiration for designing and developing supported metallic nanocatalysts. The contents include ABO3, partially substituted ABO3 (A1‑y A′ y BO3, AB1‑x B′ x O3, and A1‑y A′ y B1‑x B′ x O3), and PTOs supported on a support as the catalysts precursors. In PTOs, transition metal ions at A, A′, B, and B′ sites are confined in a PTO crystallite, and those ions are mixed uniformly at the atomic level, which is the basis for using PTOs as the precursors.
AbstractList Industrial and nanometallic catalysts are composed of an active component of metallic nanoparticles tailored by one or more additives and/or other metals, which should be in interaction and highly dispersed on a support. Therefore, it is a tough challenge to design and prepare such complicated catalysts. One promising way involves using perovskite-type oxides (PTOs, or written as ABO₃ according to the composition) as the catalyst precursors. That is the subject of this Review, with the aim to provide inspiration for designing and developing supported metallic nanocatalysts. The contents include ABO₃, partially substituted ABO₃ (A₁₋yA′yBO₃, AB₁₋ₓB′ₓO₃, and A₁₋yA′yB₁₋ₓB′ₓO₃), and PTOs supported on a support as the catalysts precursors. In PTOs, transition metal ions at A, A′, B, and B′ sites are confined in a PTO crystallite, and those ions are mixed uniformly at the atomic level, which is the basis for using PTOs as the precursors.
Industrial and nanometallic catalysts are composed of an active component of metallic nanoparticles tailored by one or more additives and/or other metals, which should be in interaction and highly dispersed on a support. Therefore, it is a tough challenge to design and prepare such complicated catalysts. One promising way involves using perovskite-type oxides (PTOs, or written as ABO3 according to the composition) as the catalyst precursors. That is the subject of this Review, with the aim to provide inspiration for designing and developing supported metallic nanocatalysts. The contents include ABO3, partially substituted ABO3 (A1‑y A′ y BO3, AB1‑x B′ x O3, and A1‑y A′ y B1‑x B′ x O3), and PTOs supported on a support as the catalysts precursors. In PTOs, transition metal ions at A, A′, B, and B′ sites are confined in a PTO crystallite, and those ions are mixed uniformly at the atomic level, which is the basis for using PTOs as the precursors.
Author Liu, Guilong
Yang, Qilei
Liu, Yuan
AuthorAffiliation Tianjin Key Laboratory of Applied Catalysis Science & Technology, School of Chemical Engineering & Technology
Collaborative Innovation Center of Chemical Science & Engineering
College of Chemistry and Chemical Engineering
AuthorAffiliation_xml – name: College of Chemistry and Chemical Engineering
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– name: Tianjin Key Laboratory of Applied Catalysis Science & Technology, School of Chemical Engineering & Technology
Author_xml – sequence: 1
  givenname: Qilei
  surname: Yang
  fullname: Yang, Qilei
  organization: Collaborative Innovation Center of Chemical Science & Engineering
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  surname: Liu
  fullname: Liu, Guilong
  email: glliu@tju.edu.cn
  organization: College of Chemistry and Chemical Engineering
– sequence: 3
  givenname: Yuan
  orcidid: 0000-0001-9785-8799
  surname: Liu
  fullname: Liu, Yuan
  email: yuanliu@tju.edu.cn
  organization: Collaborative Innovation Center of Chemical Science & Engineering
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Snippet Industrial and nanometallic catalysts are composed of an active component of metallic nanoparticles tailored by one or more additives and/or other metals,...
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SubjectTerms additives
catalysts
crystallites
metal ions
metals
nanoparticles
oxides
process design
Title Perovskite-Type Oxides as the Catalyst Precursors for Preparing Supported Metallic Nanocatalysts: A Review
URI http://dx.doi.org/10.1021/acs.iecr.7b03251
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Volume 57
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