Abstract

With the development and prosperity of the global economy, the emission of carbon dioxide (CO2) has become an increasing concern. Its greenhouse effect will cause serious environmental problems, such as the global warming and climate change. Therefore, the worldwide scientists have devoted great efforts to control CO2 emissions through various strategies, such as capture, resource utilization, sequestration, etc. Among these, the catalytic conversion of CO2 to methane is considered as one of the most efficient routes for resource utilization of CO2 owing to the mild reaction conditions and simple reaction device. Pioneer thermodynamic studies have revealed that low reaction temperature is beneficial to the high catalytic activity and CH4 selectivity. However, the low temperature will be adverse to the enhancement of the reaction rate due to kinetic barrier for the activation of CO2. Therefore, the invention of highly efficient catalysts with promising low temperature activities toward CO2 methanation reaction is the key solution. The Ni based catalysts have been widely investigated as the catalysts toward CO2 methanation due to their low cost and excellent catalytic performances. However, the Ni based catalysts usually perform poor low-temperature activities and stabilities. Therefore, the development of highly efficient Ni based catalysts with excellent low-temperature catalytic performances has become the research focus as well as challenge in this field. Therefore, we summarized the recent research progresses of constructing highly efficient Ni based catalysts toward CO2 methanation in this review. Specifically, the strategies on how to enhance the catalytic performances of the Ni based catalysts have been carefully reviewed, which include various influencing factors, such as catalytic supports, catalytic auxiliaries and dopants, the fabrication methods, reaction conditions, etc. Finally, the future development trend of the Ni based catalysts is also prospected, which will be helpful to the design and fabrication of the Ni catalysts with high efficiency toward CO2 methanation process.

Highlights

  • In the context of the rapid development of global economy, the energy crisis, and environmental pollution has been becoming more and more serious

  • It is of greatly practical significance to study CO2 methanation technology in order to solve the problem of energy shortage and reduce the concentration of CO2 in the atmosphere

  • This review generally summarizes different ways to improve catalyst performance

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Summary

INTRODUCTION

In the context of the rapid development of global economy, the energy crisis, and environmental pollution has been becoming more and more serious. Compared with other non-precious metal catalysts, the precious metal based catalysts have better lowtemperature catalytic activities, and higher methane selectivity They are not suitable for large-scale promotion and application due to the limitations of high price and rare resources (Panagiotopoulou, 2017; Chai et al, 2019). Ni-based catalysts are widely investigated as the catalysts toward CO2 methanation due to their excellent catalytic performances and low price, though their low-temperature activities and anti-sintering properties are not excellent enough. It is of great significance to summarize the recent development of Ni-based catalysts with excellent low-temperature activity. Structural property, nickel dispersion, and strong metal-support interaction are important index factors of Ni-based catalysts, which affect the low-temperature catalytic activity and sinteringresistant performance of Ni-based catalysts.

Summary
Preparation Method
CONCLUSIONS AND PERSPECTIVE

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