Metal atoms atomically dispersed on an inorganic metal‐based support compose a unique category of single atom catalysts(SACs)and have important applications in catalytic photoreduction reactions,including H_(2) evolu...Metal atoms atomically dispersed on an inorganic metal‐based support compose a unique category of single atom catalysts(SACs)and have important applications in catalytic photoreduction reactions,including H_(2) evolution reaction,CO_(2) reduction reaction,and N_(2) reduction reaction.In this minreview,we summarized the typical metal‐support interaction(M‐SI)patterns for successful anchoring of single‐atom metals on metallic compound supports.Subsequently,the contribution of the dispersed single metal atoms and M‐SI to photocatalytic reactions with improved activity,selectivity,and stability are highlighted,such as by accelerating charge transfer,regulating band structure of the support,acting as the reductive sites,and/or increasing catalytic selectivity.Finally,some challenges and perspectives of future development are proposed.We anticipate that this minireview will be a beneficial supplement for a comprehensive perception of metal‐based material supported SACs and their application in heterogeneous photo‐reductive catalysis.展开更多
Al-LaB6 alloy was successfully prepared by aluminum melt reaction method. Microstmcture analysis of this alloy was carried out by field emission scanning electron microscopy (FESEM), Raman spectroscopy and transmiss...Al-LaB6 alloy was successfully prepared by aluminum melt reaction method. Microstmcture analysis of this alloy was carried out by field emission scanning electron microscopy (FESEM), Raman spectroscopy and transmission electron microscopy (TEM). It was found that cubic LaB6 particles were highly dispersed in aluminum matrix with a uniform edge length of about 4.5 μm. Grain refining potency of LaB6 on commercial pure aluminum was also investigated. It was shown that LaB6 could act as an effective and stable nucleation substrate for α-Al during solidification process, due to their crystallographic similarity. The coarse grains of commercial pure aluminum were obviously refined to small equiaxed ones by addition of 0.5% Al-5LaB6 alloy at 720 ℃.展开更多
文摘Metal atoms atomically dispersed on an inorganic metal‐based support compose a unique category of single atom catalysts(SACs)and have important applications in catalytic photoreduction reactions,including H_(2) evolution reaction,CO_(2) reduction reaction,and N_(2) reduction reaction.In this minreview,we summarized the typical metal‐support interaction(M‐SI)patterns for successful anchoring of single‐atom metals on metallic compound supports.Subsequently,the contribution of the dispersed single metal atoms and M‐SI to photocatalytic reactions with improved activity,selectivity,and stability are highlighted,such as by accelerating charge transfer,regulating band structure of the support,acting as the reductive sites,and/or increasing catalytic selectivity.Finally,some challenges and perspectives of future development are proposed.We anticipate that this minireview will be a beneficial supplement for a comprehensive perception of metal‐based material supported SACs and their application in heterogeneous photo‐reductive catalysis.
基金supported by the National Natural Science Foundation of China (51071097,51001065)the support of the Graduate Independent Innovation Foundation of Shandong University (GIIFSDU)
文摘Al-LaB6 alloy was successfully prepared by aluminum melt reaction method. Microstmcture analysis of this alloy was carried out by field emission scanning electron microscopy (FESEM), Raman spectroscopy and transmission electron microscopy (TEM). It was found that cubic LaB6 particles were highly dispersed in aluminum matrix with a uniform edge length of about 4.5 μm. Grain refining potency of LaB6 on commercial pure aluminum was also investigated. It was shown that LaB6 could act as an effective and stable nucleation substrate for α-Al during solidification process, due to their crystallographic similarity. The coarse grains of commercial pure aluminum were obviously refined to small equiaxed ones by addition of 0.5% Al-5LaB6 alloy at 720 ℃.
