Catalysts for nitrogen reduction to ammonia
The production of synthetic ammonia remains dependent on the energy-and capital-
intensive Haber–Bosch process. Extensive research in molecular catalysis has …
intensive Haber–Bosch process. Extensive research in molecular catalysis has …
Catalytic N2-to-NH3 (or -N2H4) Conversion by Well-Defined Molecular Coordination Complexes
Nitrogen fixation, the six-electron/six-proton reduction of N2, to give NH3, is one of the most
challenging and important chemical transformations. Notwithstanding the barriers …
challenging and important chemical transformations. Notwithstanding the barriers …
Metal-Free Single Atom Catalyst for N2 Fixation Driven by Visible Light
Solar nitrogen (N2) fixation is the most attractive way for the sustainable production of
ammonia (NH3), but the development of a highly active, long-term stable and low-cost …
ammonia (NH3), but the development of a highly active, long-term stable and low-cost …
Single Mo atom supported on defective boron nitride monolayer as an efficient electrocatalyst for nitrogen fixation: a computational study
The production of ammonia (NH3) from molecular dinitrogen (N2) under mild conditions is
one of the most attractive and challenging processes in chemistry. Here by means of density …
one of the most attractive and challenging processes in chemistry. Here by means of density …
Photocatalytic nitrogen fixation under an ambient atmosphere using a porous coordination polymer with bridging dinitrogen anions
The design of highly electron-active and stable heterogeneous catalysts for the ambient
nitrogen reduction reaction is challenging due to the inertness of the N2 molecule. Here, we …
nitrogen reduction reaction is challenging due to the inertness of the N2 molecule. Here, we …
A general two‐step strategy–based high‐throughput screening of single atom catalysts for nitrogen fixation
Electrocatalytic or photocatalytic N2 reduction holds great promise for green and sustainable
NH3 production under ambient conditions, where an efficient catalyst plays a crucial role but …
NH3 production under ambient conditions, where an efficient catalyst plays a crucial role but …
Near ambient N2 fixation on solid electrodes versus enzymes and homogeneous catalysts
Abstract The Mo/Fe nitrogenase enzyme is unique in its ability to efficiently reduce
dinitrogen to ammonia at atmospheric pressures and room temperature. Should an artificial …
dinitrogen to ammonia at atmospheric pressures and room temperature. Should an artificial …
Dual active centers bridged by oxygen vacancies of ruthenium single‐atom hybrids supported on molybdenum oxide for photocatalytic ammonia synthesis
Photocatalytic synthesis of ammonia (NH3) holds significant potential compared with the
Haber–Bosch process. However, the reported photocatalysts suffer from low efficiency …
Haber–Bosch process. However, the reported photocatalysts suffer from low efficiency …
Single molybdenum atom anchored on N-doped carbon as a promising electrocatalyst for nitrogen reduction into ammonia at ambient conditions
Ammonia (NH3) is one of the most important industrial chemicals owing to its wide
applications in various fields. However, the synthesis of NH3 at ambient conditions remains …
applications in various fields. However, the synthesis of NH3 at ambient conditions remains …
Comprehensive insights into synthetic nitrogen fixation assisted by molecular catalysts under ambient or mild conditions
Y Tanabe, Y Nishibayashi - Chemical Society Reviews, 2021 - pubs.rsc.org
N2 is fixed as NH3 industrially by the Haber–Bosch process under harsh conditions,
whereas biological nitrogen fixation is achieved under ambient conditions, which has …
whereas biological nitrogen fixation is achieved under ambient conditions, which has …