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Doubling the life of Cu/ZnO methanol synthesis catalysts via use of Si as a structural promoter to inhibit sintering.
Barrow, Nathan; Bradley, Jonathan; Corrie, Benjamin; Cui, Youxin; Tran, Trung Dung; Erden, Tugce Eralp; Fish, Andrew; Garcia, Monica; Glen, Pauline; Mistry, Neetisha; Nicholson, Michael; Roloff-Standring, Simone; Sheldon, Daniel; Smith, Thomas; Summer, Aron; Din, Kaamila Un; Macleod, Norman.
Afiliação
  • Barrow N; Johnson Matthey Technology Centre, Sonning Common, RG4 9NH, UK.
  • Bradley J; Johnson Matthey Technology Centre, Sonning Common, RG4 9NH, UK.
  • Corrie B; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Cui Y; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Tran TD; Johnson Matthey Technology Centre, Sonning Common, RG4 9NH, UK.
  • Erden TE; Johnson Matthey Technology Centre, Sonning Common, RG4 9NH, UK.
  • Fish A; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Garcia M; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Glen P; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Mistry N; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Nicholson M; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Roloff-Standring S; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Sheldon D; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Smith T; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Summer A; Johnson Matthey Technology Centre, Sonning Common, RG4 9NH, UK.
  • Din KU; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
  • Macleod N; Johnson Matthey, Catalyst Technologies, Billingham, TS23 1LB, UK.
Sci Adv ; 10(3): eadk2081, 2024 Jan 19.
Article em En | MEDLINE | ID: mdl-38232167
ABSTRACT
Cu/ZnO/Al2O3 catalysts used to synthesize methanol undergo extensive deactivation during use, mainly due to sintering. Here, we report on formulations wherein deactivation has been substantially reduced by the targeted use of a small quantity of a Si-based promoter, resulting in accrued activity benefits that can exceed a factor of 1.8 versus unpromoted catalysts. This enhanced stability also provides longer lifetimes, up to double that of prior generation catalysts. Detailed characterization of a library of aged catalysts has allowed the most important deactivation mechanisms to be established and the chemical state of the silicon promoter to be identified. We show that silicon is incorporated within the ZnO lattice, providing a pronounced improvement in the hydrothermal stability of this component. These findings have important implications for sustainable methanol production from H2 and CO2.

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Ano de publicação: 2024 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Ano de publicação: 2024 Tipo de documento: Article