Carlos A. Castilla-Martinez, Bilge Coşkuner Fılız, Eddy Petit, Aysel Kantürk Fıgen, Umit B. Demirci
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引用次数: 1
摘要
氨硼烷(NH3BH3)是一种还原剂,能够捕获和转化二氧化碳。在本工作中,我们使用了由90wt .% NH3BH3和10wt .%氯化钯的混合物组成的反应性固体,因为该混合物在释放H2和生成催化Pd0的同时快速放热反应。我们利用这种反应性来捕获和转化二氧化碳(7bar),此外我们还知道Pd0是一种二氧化碳加氢催化剂。操作(即第1阶段)是有效的:BNH聚合物,B-O, C=O, C - O和C - h键(如BOCH3和BOOCH基团)被识别出来。然后(在第二阶段)在1250°C下热解得到的固体并用水洗涤。在此过程中,我们分离出了环三硼酸H3B3O6(源于1250°C形成的B2O3)、六方氮化硼和石墨碳。综上所述,阶段1表明CO2可以被“捕获”并转化,从而形成BOCH3和boch基团(可能是甲醇和甲酸的来源),阶段2表明CO2转化为石墨碳。
Ammonia borane-based reactive mixture for trapping and converting carbon dioxide
Ammonia borane (NH3BH3) is a reducing agent, able to trap and convert carbon dioxide. In the present work, we used a reactive solid consisting of a mixture of 90 wt.% of NH3BH3 and 10 wt.% of palladium chloride, because the mixture reacts in a fast and exothermic way while releasing H2 and generating catalytic Pd0. We took advantage of such reactivity to trap and convert CO2 (7 bar), knowing besides that Pd0 is a CO2 hydrogenation catalyst. The operation (i.e. stage 1) was effective: BNH polymers, and B—O, C=O, C—O, and C—H bonds (like in BOCH3 and BOOCH groups) were identified. We then (in stage 2) pyrolyzed the as-obtained solid at 1250 °C and washed it with water. In doing so, we isolated cyclotriboric acid H3B3O6 (stemming from B2O3 formed at 1250 °C), hexagonal boron nitride, and graphitic carbon. In conclusion, the stage 1 showed that CO2 can be ‘trapped’ and converted, resulting in the formation of BOCH3 and BOOCH groups (possible sources of methanol and formic acid), and the stage 2 showed that CO2 transforms into graphitic carbon.
期刊介绍:
Frontiers of Materials Science is a peer-reviewed international journal that publishes high quality reviews/mini-reviews, full-length research papers, and short Communications recording the latest pioneering studies on all aspects of materials science. It aims at providing a forum to promote communication and exchange between scientists in the worldwide materials science community.
The subjects are seen from international and interdisciplinary perspectives covering areas including (but not limited to):
Biomaterials including biomimetics and biomineralization;
Nano materials;
Polymers and composites;
New metallic materials;
Advanced ceramics;
Materials modeling and computation;
Frontier materials synthesis and characterization;
Novel methods for materials manufacturing;
Materials performance;
Materials applications in energy, information and biotechnology.
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