Inside Back Cover: Microfabrication Enables Quantification of Interfacial Activity in Thermal Catalysis (Small Methods 5/2021) | Zendy

Frei Matthias S. | Zendy; Veenstra Florentine L. P. | Zendy; Capeder David | Zendy; Stewart Joseph A. | Zendy; CurullaFerré Daniel | Zendy; Martín Antonio J. | Zendy; Mondelli Cecilia | Zendy; PérezRamírez Javier | Zendy

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Inside Back Cover: Microfabrication Enables Quantification of Interfacial Activity in Thermal Catalysis (Small Methods 5/2021)

Author(s) -

Frei Matthias S.,

Veenstra Florentine L. P.,

Capeder David,

Stewart Joseph A.,

CurullaFerré Daniel,

Martín Antonio J.,

Mondelli Cecilia,

PérezRamírez Javier

Publication year - 2021

Publication title -

small methods

Language(s) - English

Resource type - Reports

SCImago Journal Rank - 4.66

H-Index - 46

ISSN - 2366-9608

DOI - 10.1002/smtd.202170021

Subject(s) - microfabrication , catalysis , oxide , cover (algebra) , methanol , materials science , thermal , nanotechnology , process (computing) , process engineering , chemical engineering , computer science , chemistry , mechanical engineering , organic chemistry , metallurgy , engineering , operating system , physics , thermodynamics , fabrication , medicine , alternative medicine , pathology

In article number 2001231, Pérez‐Ramírez and co‐workers devise a method using microfabricated model catalysts and a custom‐designed reactor to decouple the contribution of metal‐oxide interfaces in Cu‐ZnO for methanol synthesis via CO and CO 2 hydrogenation under process‐relevant conditions.

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