Photothermal catalytic activity of combustion synthesized LaCoxFe1-xO3 (0 <= x <= 1) perovskite for CO2 reduction with H2O to CH4 and CH3OH

Xu Lijuan; Minh Ngoc Ha; Guo Qiangsheng; Wang Lichao; Ren Yanan; Sha Na; Zhao Zhe

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Photothermal catalytic activity of combustion synthesized LaCoxFe1-xO3 (0 <= x <= 1) perovskite for CO2 reduction with H2O to CH4 and CH3OH

机译：燃烧的光热催化活性合成LacoxFe1-XO3（0 <= X = 1）钙钛矿用于CO 2用H 2 O至CH 4和CH 3 OH

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A range of LaCoxFe1-xO3 perovskites with different Co-doping at the B-site were successfully synthesized via a sol-gel combustion route. Phase pure samples were obtained by calcination at 700 degrees C for 2 h. The morphology, crystal structure, surface area, band structures, oxygen vacancies and catalytic properties of each analog were characterized in detail. The band structures and oxygen vacancies of the catalysts were changed by adjusting the dopant concentration. The catalytic performance of the LaCoxFe1-xO3 materials was characterized using water as a hydrogen source in the production of CH4 and CH3OH from CO2. Under photothermal conditions, 350 degrees C with a visible light source equipped with 420 nm cut filter, it was found that x value will influence the total yield and the solar to CH4 and CH3OH energy conversion efficiency significantly. For x = 0.6 compound, the production of CH4 and CH3OH evolution can reach 437.28 and 13.75 mu mol g(-1) in 6 h, which were 3.2 and 4.0 times that of LaFeO3 under the same condition. The overall solar-to-methane efficiency and solar-to-methanol efficiency for LaCo0.6Fe0.4O3 were 0.603%, 0.019% and for LaFeO3 were 0.191%, 0.005% in the photothermal mode, respectively. The results show that the band gap energy is correlated with the photothermal activity and the LaCo0.6Fe0.4O3 has the position of the CB and VB more suitable for CO2 reduction. The CB and VB value of LaCo0.6Fe0.4O3 were -0.258 and +1.422 V and CO2 (-0.24 V for CB) can be reduced to methane under the conditions.

机译：通过溶胶 - 凝胶燃烧途径成功地合成了具有不同共同掺杂的LacoxFe1-XO3钙酸盐。通过在700℃下煅烧获得相纯样品2小时。详细表征了每个模拟的形态，晶体结构，表面积，带结构，氧空位和催化性质。通过调节掺杂剂浓度来改变催化剂的带状结构和氧空位。使用水作为氢源在CH 4和CH 3 OH的CH 4和CH 3 OH的氢源中表征了LACOXFE1-XO3材料的催化性能。在光热条件下，具有配备420nm切割过滤器的可见光源350℃，发现X值将显着影响总产量和太阳能到CH4和CH3OH能量转换效率。对于X = 0.6化合物，CH 4和CH 3 OH evolution的生产可以在6小时内达到437.28和13.75μmmolg（-1），其在相同条件下为LafeO3的3.2和4.0倍。 LACO0.6FE0.4O3的整体太阳能 - 甲烷效率和太阳能 - 甲醇效率为0.603％，对于LafeO3分别为0.191％，在光热模式下为0.191％，0.005％。结果表明，带隙能量与光热活性相关，LACO0.6FE0.4O3具有CB和VB更适合于CO 2还原的位置。在条件下，LACO0.6FE0.4O3的CB和VB值为-0.258和+1.422V和CO 2（CB的-0.24V）可以将其还原为甲烷。

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《RSC Advances 》 |2017年第73期| 共11页
作者
Xu Lijuan; Minh Ngoc Ha; Guo Qiangsheng; Wang Lichao; Ren Yanan; Sha Na; Zhao Zhe;
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作者单位

Shanghai Inst Technol Sch Mat Sci &

Engn Shanghai 201418 Peoples R China;

Vietnam Natl Univ Hanoi Univ Sci Fac Chem Hanoi 10000 Vietnam;

Shanghai Inst Technol Sch Chem &

Environm Engn Shanghai 201418 Peoples R China;

Shanghai Inst Technol Sch Mat Sci &

Engn Shanghai 201418 Peoples R China;

Shanghai Inst Technol Sch Mat Sci &

Engn Shanghai 201418 Peoples R China;

Shanghai Inst Technol Sch Chem &

Environm Engn Shanghai 201418 Peoples R China;

Shanghai Inst Technol Sch Mat Sci &

Engn Shanghai 201418 Peoples R China;

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Photothermal catalytic activity of combustion synthesized LaCoxFe1-xO3 (0 <= x <= 1) perovskite for CO2 reduction with H2O to CH4 and CH3OH

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