Silicon carbide in catalysis: from inert bed filler to catalytic support and multifunctional material

Shekhar R. Kulkarni, Vijay Kumar Velisoju, F. Tavares, A. Dikhtiarenko, J. Gascón, P. Castaño
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引用次数: 7

Abstract

ABSTRACT Silicon carbide (SiC) or carborundum has unparalleled thermal stability and conductivity compared with many other materials. This feature together with its unique photoelectrical properties (tunable band gap: 2.39–3.33 eV), low thermal expansion, high strength, and good chemical and thermal stability makes it an ideal inert solid in catalysis. The evolution of methods for synthesizing SiC has also progressively endowed it with additional features at the multiscale. This review tracks the development of SiC from a secondary to a leading role material in catalysis. First, the intrinsic properties of SiC are discussed and compared with other state-of-the-art catalytic materials. The synthetic methods are systematically reviewed and compared. Then, the applications of SiC in catalysis are assessed, paying particular attention to those that involve C1 chemistry (Fischer–Tropsch Synthesis and the valorization of CO2 and CH4), photocatalysis and biomass conversion. Finally, the potential future applications of SiC are also addressed and discussed. Graphical Abstract
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碳化硅在催化中的应用:从惰性床填料到催化载体和多功能材料
与许多其他材料相比,碳化硅(SiC)或碳化硅具有无与伦比的热稳定性和导电性。这一特性加上其独特的光电性能(可调带隙:2.39-3.33 eV)、低热膨胀、高强度、良好的化学和热稳定性,使其成为催化领域理想的惰性固体。合成碳化硅方法的发展也逐渐赋予了它在多尺度上的附加特征。本文回顾了碳化硅在催化领域从次要材料到主导材料的发展历程。首先,讨论了碳化硅的本征性质,并与其他先进的催化材料进行了比较。对各种合成方法进行了系统的评述和比较。然后,评估了SiC在催化中的应用,重点关注了涉及C1化学(费托合成和CO2和CH4的增值),光催化和生物质转化的应用。最后,对碳化硅未来的应用前景进行了展望和讨论。图形抽象
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