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Efficient Non‐dissociative Activation of Dinitrogen to Ammonia over Lithium‐Promoted Ruthenium Nanoparticles at Low Pressure
Author(s) -
Zheng Jianwei,
Liao Fenglin,
Wu Simson,
Jones Glenn,
Chen TianYi,
Fellowes Joshua,
Sudmeier Tim,
McPherson Ian J.,
Wilkinson Ian,
Tsang Shik Chi Edman
Publication year - 2019
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201907171
Subject(s) - ammonia production , catalysis , chemistry , ruthenium , alkali metal , inorganic chemistry , dissociation (chemistry) , ammonia , disproportionation , lithium (medication) , organic chemistry , medicine , endocrinology
Abstract There is an exciting possibility to decentralize ammonia synthesis for fertilizer production or energy storage without carbon emission from H 2 obtained from renewables at small units operated at lower pressure. However, no suitable catalyst has yet been developed. Ru catalysts are known to be promoted by heavier alkali dopants. Instead of using heavy alkali metals, Li is herein shown to give the highest rate through surface polarisation despite its poorest electron donating ability. This exceptional promotion rate makes Ru–Li catalysts suitable for ammonia synthesis, which outclasses industrial Fe counterparts by at least 195 fold. Akin to enzyme catalysis, it is for the first time shown that Ru–Li catalysts hydrogenate end‐on adsorbed N 2 stabilized by Li + on Ru terrace sites to ammonia in a stepwise manner, in contrast to typical N 2 dissociation on stepped sites adopted by Ru–Cs counterparts, giving new insights in activating N 2 by metallic catalysts.