Mamutjan Tursun scite author profile

Nitric oxide electroreduction reaction (NOER) is one of the most attractive routes for ammonia synthesis and NOx‐related pollutant treatment. However, current research on NOER catalysts mainly focus on noble metals and single atom catalysts, while low‐cost transition metal dichalcogenides (TMDs) are rarely considered, let alone their product selectivity. Herein, using first‐principles calculations, we systematically investigate the performance of a series of single‐layer TMDs (MoS2, MoSe2, MoTe2, TaTe2 and WTe2) in the 1T’ phase as electrocatalysts for NOER. Our results reveal that defective 1T’‐MoS2 and 1T’‐MoSe2 monolayers (with the most common sulphur and selenium vacancies, respectively) exhibit excellent activity for NOER as well as high selectivity for ammonia, which can be correspondingly yielded at 0 and −0.06 V potentials, comparable to the best Pt‐based and single atom catalysts. Furthermore, these two catalysts efficiently suppress the competing hydrogen evolution reaction (HER). Thus, single‐layer TMDs synthesized with chalcogen vacancies may serve as efficient catalysts for electrochemical ammonia synthesis from pollutants and electrocatalytic denitrification.

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Vacancy-triggered and dopant-assisted NO electrocatalytic reduction over MoS₂

Tursun

2021

Phys. Chem. Chem. Phys.

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Bi-Co3O4 catalyzing N2O decomposition with strong resistance to CO2

Tursun

Wang

Zhang

et al. 2015

Catalysis Communications

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Mamutjan Tursun

Pb0.04Co catalyst for N2O decomposition in presence of impurity gases

NO Electroreduction by Transition Metal Dichalcogenides with Chalcogen Vacancies

Vacancy-triggered and dopant-assisted NO electrocatalytic reduction over MoS₂

Bi-Co3O4 catalyzing N2O decomposition with strong resistance to CO2

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About

Mamutjan Tursun

Pb0.04Co catalyst for N2O decomposition in presence of impurity gases

NO Electroreduction by Transition Metal Dichalcogenides with Chalcogen Vacancies

Vacancy-triggered and dopant-assisted NO electrocatalytic reduction over MoS2

Bi-Co3O4 catalyzing N2O decomposition with strong resistance to CO2

Contact Info

Product

Resources

About

Vacancy-triggered and dopant-assisted NO electrocatalytic reduction over MoS₂