The effect of pyrolysis heating rate on the mesoporosity of Pluronic F-127 templated carbon xerogels

IF 3.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Carbon Trends Pub Date : 2024-09-11 DOI:10.1016/j.cartre.2024.100401
Eva Kinnertová , Tomáš Zelenka , Gabriela Zelenková , Lucie Kořená , Václav Slovák , Miroslav Almáši
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Abstract

This study explored the impact of pyrolysis heating rates ranging from 1 to 20 K min−1 (final temperature 500 °C) on the porosity of resorcinol-formaldehyde based carbonaceous xerogels soft-templated with Pluronic F-127. We primarily utilized thermoporometry (differential scanning calorimetry technique) and, to a lesser extent, conventional nitrogen adsorption at −196 °C to analyze the porosity of the resulting carbons. Additionally, we examined the effects of particle size and the scale of the pyrolysis experiment, comparing a laboratory furnace with a thermal analyzer. At lower heating rates, particularly in a thermal analyzer, mesopores approximately 7–8 nm in size were observed. An increase in the heating rate resulted in larger mesopores, from 7 to 17 nm, widened pore size distribution (PSD), and a rise in mesopore volume from 0.21 to 0.53 cm3 g−1. Higher heating rates (> 5 K min-1) also accelerated the decomposition of the Pluronic F-127, leading to fast gas release, which subsequently caused cracking of the carbon skeleton and widening of the pores. Pyrolysis heating rate had no significant effect on the degree of graphitization in the pyrolyzed samples. Particle size showed minimal influence on porosity when xerogels were pyrolyzed at either the minimal or maximal heating rates in the thermal analyzer. However, experiments conducted in a laboratory furnace at the lowest heating rate demonstrated that imprecise temperature control and fluctuations can lead to the formation of larger mesopores.

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热解加热速率对 Pluronic F-127 模板碳异凝胶介孔率的影响
本研究探讨了热解加热速率(1 至 20 K min-1)(最终温度 500 °C)对间苯二酚-甲醛基碳质异构体与 Pluronic F-127 软模板的孔隙率的影响。我们主要利用热量测定法(差示扫描量热法),其次是在 -196 °C 下利用传统的氮吸附法来分析所得碳的孔隙率。此外,我们还研究了颗粒大小和热解实验规模的影响,将实验室熔炉与热分析仪进行了比较。在较低的加热速率下,尤其是在热分析仪中,可以观察到大小约为 7-8 纳米的中孔。加热速率增加会导致介孔增大(从 7 纳米到 17 纳米),孔径分布(PSD)变宽,介孔体积从 0.21 cm3 g-1 增加到 0.53 cm3 g-1。较高的加热速率(5 K min-1)也加速了 Pluronic F-127 的分解,导致气体快速释放,碳骨架随之开裂,孔隙变宽。热解加热速率对热解样品的石墨化程度没有显著影响。在热分析仪中以最小或最大加热速率热解 xerogels 时,颗粒大小对孔隙率的影响微乎其微。然而,在实验室熔炉中以最低加热速率进行的实验表明,不精确的温度控制和波动会导致形成较大的中孔。
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来源期刊
Carbon Trends
Carbon Trends Materials Science-Materials Science (miscellaneous)
CiteScore
4.60
自引率
0.00%
发文量
88
审稿时长
77 days
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