Nature Catalysis

, том 1 , издание 7 , страницы 490-500

Catalysts for nitrogen reduction to ammonia

Shelby L Foster ¹

Sergio I. Perez Bakovic ¹

Royce D Duda ²

Sharad Maheshwari ³

Ross D. Milton ⁴

Min Li ⁴

Michael J. Janik ³

Julie N Renner ²

Lauren F Greenlee ¹

Скрыть аффилиации авторов Показать аффилиации авторов: 4 аффилиации

University of Arkansas, Ralph E. Martin Department of Chemical Engineering, Fayetteville, USA |

Case Western Reserve University, Department of Chemical and Biomolecular Engineering, Cleveland, USA |

Department of Chemical Engineering, Penn State University, University Park, USA |

⁴

Department of Chemistry, University of Utah, Salt Lake City, USA |

Тип публикации: Journal Article

Дата публикации: 2018-07-12

Springer Nature

Nature Catalysis

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SJR: 14.132

CiteScore: 57.7

Impact factor: 44.6

ISSN: 25201158

DOI: 10.1038/s41929-018-0092-7

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Catalysis

Biochemistry

Process Chemistry and Technology

Bioengineering

Краткое описание

The production of synthetic ammonia remains dependent on the energy- and capital-intensive Haber–Bosch process. Extensive research in molecular catalysis has demonstrated ammonia production from dinitrogen, albeit at low production rates. Mechanistic understanding of dinitrogen reduction to ammonia continues to be delineated through study of molecular catalyst structure, as well as through understanding the naturally occurring nitrogenase enzyme. The transition to Haber–Bosch alternatives through robust, heterogeneous catalyst surfaces remains an unsolved research challenge. Catalysts for electrochemical reduction of dinitrogen to ammonia are a specific focus of research, due to the potential to compete with the Haber–Bosch process and reduce associated carbon dioxide emissions. However, limited progress has been made to date, as most electrocatalyst surfaces lack specificity towards nitrogen fixation. In this Review, we discuss the progress of the field in developing a mechanistic understanding of nitrogenase-promoted and molecular catalyst-promoted ammonia synthesis and provide a review of the state of the art and scientific needs for heterogeneous electrocatalysts. The artificial synthesis of ammonia remains one of the most important catalytic processes worldwide, over 100 years after its development. In this Review, recent developments in enzymatic, homogeneous and heterogeneous catalysis towards the conversion of nitrogen to ammonia are discussed, with a particular focus on how mechanistic understanding informs catalyst design.

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Foster S. L. et al. Catalysts for nitrogen reduction to ammonia // Nature Catalysis. 2018. Vol. 1. No. 7. pp. 490-500.

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Foster S. L., Bakovic S. I. P., Duda R. D., Maheshwari S., Milton R. D., Li M., Janik M. J., Renner J. N., Greenlee L. F. Catalysts for nitrogen reduction to ammonia // Nature Catalysis. 2018. Vol. 1. No. 7. pp. 490-500.

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TY - JOUR

DO - 10.1038/s41929-018-0092-7

UR - https://www.nature.com/articles/s41929-018-0092-7

TI - Catalysts for nitrogen reduction to ammonia

T2 - Nature Catalysis

AU - Foster, Shelby L

AU - Bakovic, Sergio I. Perez

AU - Duda, Royce D

AU - Maheshwari, Sharad

AU - Milton, Ross D.

AU - Li, Min

AU - Janik, Michael J.

AU - Renner, Julie N

AU - Greenlee, Lauren F

PY - 2018

DA - 2018/07/12

PB - Springer Nature

SP - 490-500

IS - 7

VL - 1

SN - 2520-1158

ER -

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@article{2018_Foster,

author = {Shelby L Foster and Sergio I. Perez Bakovic and Royce D Duda and Sharad Maheshwari and Ross D. Milton and Min Li and Michael J. Janik and Julie N Renner and Lauren F Greenlee},

title = {Catalysts for nitrogen reduction to ammonia},

journal = {Nature Catalysis},

year = {2018},

volume = {1},

publisher = {Springer Nature},

month = {jul},

url = {https://www.nature.com/articles/s41929-018-0092-7},

number = {7},

pages = {490--500},

doi = {10.1038/s41929-018-0092-7}

}

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Foster, Shelby L., et al. “Catalysts for nitrogen reduction to ammonia.” Nature Catalysis, vol. 1, no. 7, Jul. 2018, pp. 490-500. https://www.nature.com/articles/s41929-018-0092-7.

Издатель

Springer Nature

Журнал

Nature Catalysis

scimago Q1

wos Q1

БС1

SJR

14.132

CiteScore

57.7

Impact factor

44.6

ISSN

25201158 (Electronic)

Профили

Минтеер Шеллей