探讨DAHP浸渍对活性炭纤维高效电荷储存和选择性O2还原成过氧化物的影响

C Pub Date : 2023-11-06 DOI:10.3390/c9040105
Nemanja Gavrilov, Stefan Breitenbach, Christoph Unterweger, Christian Fürst, Igor A. Pašti
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引用次数: 0

摘要

了解碳材料的性质和行为对于追求可持续能源解决方案和技术进步至关重要。碳材料是一种用途广泛、资源丰富的材料,在各种能源转换和储存应用中发挥着核心作用,是向更绿色、更高效的未来过渡的重要组成部分。本研究探讨了磷酸氢二铵(DAHP)浸渍对活性炭纤维(ACFs)高效储能和转化应用的影响。用不同浓度的DAHP浸渍粘胶纤维,然后进行炭化和活化过程。电容测量在6 mol dm−3 KOH、0.5 mol dm−3 H2SO4和2 mol dm−3 KNO3溶液中进行,氧还原反应(ORR)测量在o2饱和的0.1 mol dm−3 KOH溶液中进行。我们发现,当DAHP浓度在1.0 ~ 2.5%范围内时,所制备的材料显示出高达160 F g−1的比电容。此外,对于DAHP浓度较低的样品,在保持较低ORR起病电位的同时,实现了高度选择性的O2还原为过氧化物。因此,通过用DAHP浸渍粘胶纤维,可以在提高产量的同时调整其电化学性能,从而实现更可持续、更节能的先进材料合成,用于能量转换应用。
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Exploring the Impact of DAHP Impregnation on Activated Carbon Fibers for Efficient Charge Storage and Selective O2 Reduction to Peroxide
Understanding the properties and behavior of carbon materials is of paramount importance in the pursuit of sustainable energy solutions and technological advancements. As versatile and abundant resources, carbon materials play a central role in various energy conversion and storage applications, making them essential components in the transition toward a greener and more efficient future. This study explores the impact of diammonium hydrogen phosphate (DAHP) impregnation on activated carbon fibers (ACFs) for efficient energy storage and conversion applications. The viscose fibers were impregnated with varying DAHP concentrations, followed by carbonization and activation processes. The capacitance measurements were conducted in 6 mol dm−3 KOH, 0.5 mol dm−3 H2SO4, and 2 mol dm−3 KNO3 solutions, while the oxygen reduction reaction (ORR) measurements were performed in O2-saturated 0.1 mol dm−3 KOH solution. We find that the presented materials display specific capacitances up to 160 F g−1 when the DAHP concentration is in the range of 1.0 to 2.5%. Moreover, for the samples with lower DAHP concentrations, highly selective O2 reduction to peroxide was achieved while maintaining low ORR onset potentials. Thus, by impregnating viscose fibers with DAHP, it is possible to tune their electrochemical properties while increasing the yield, enabling the more sustainable and energy-efficient synthesis of advanced materials for energy conversion applications.
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