叶酸的热解:气态/挥发性产物的鉴定和掺杂正极的石墨碳的结构演变

IF 3.1 2区 化学 Q2 CHEMISTRY, ANALYTICAL Thermochimica Acta Pub Date : 2024-07-07 DOI:10.1016/j.tca.2024.179813
Vagner R. Magri , Caroline S. de Matos , Michele A. Rocha , Christine Taviot-Gueho , Vera R.L. Constantino
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引用次数: 0

摘要

叶酸(FA)是一种通过热解生产不同掺杂 N 的碳材料的低成本合适来源。然而,人们对叶酸的热解步骤并不完全了解,尤其是在 350 ℃ 以上,这阻碍了通过单锅路线智能设计量身定制的碳材料。本研究采用热重分析法(TGA)和差示扫描量热法(TGA-DSC)同时研究了 FA 的热解分解步骤。通过将 TGA 与红外光谱和质谱联用(TGA-FTIR-MS),对释放的气态/挥发性产物进行了探测。考虑到热分析数据,FA 在 350、430、570、800 和 1000 °C 的炉中进行热解,并通过 X 射线衍射仪 (XRD)、振动光谱仪和 X 射线光电子能谱仪对产物进行分析。此外,还在氮气环境下进行了原位高温 X 射线衍射(HT-XRD)实验。根据数据集,可以提出有关 FA 分解步骤的见解,包括分解过程中释放的气态/挥发性产物以及掺杂 N 的石墨碳的结构演变。通过聚合/缩合反应,碳质材料在 200 至 350 °C 之间开始形成,这一步骤的特点是释放出 2-吡咯烷酮和苯胺。350 °C 以上时,石墨化增强,石墨氮增加,而酰胺基消失。这一过程伴随着脱氧(即 CO 和 CO2 释放)和脱氮(如 NH3、HNCO 和 HCN)反应。在 570-800 °C 范围内,碳材料(N-吡啶、5,7-元环中的 N-吡咯/Csp2-N 和腈)的 N 富集可能是通过炭表面释放的 NH3 反应发生的。在 800 °C 以上的温度下,会产生主要含有 N-石墨和 N-吡啶的类石墨结构。有关 FA 热分解步骤的原始数据有助于优化掺杂 N 的碳材料的合成,使其适用于吸附、传感、催化和储能领域。
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Pyrolysis of folic acid: Identification of gaseous/volatile products and structural evolution of N-doped graphitic carbon

Folic acid (FA) is a low-cost and suitable source for producing different N-doped carbon materials by pyrolysis. However, the pyrolytic steps of FA are not entirely understood, particularly above 350 °C, which hampers the intelligent design of tailor-made carbon materials by a one-pot route. In this work, the pyrolytic decomposition steps of FA were investigated by simultaneous thermogravimetric analysis (TGA) and differential scanning calorimetry (TGA-DSC). The released gaseous/volatile products were probed by coupling TGA to infrared spectroscopy and mass spectrometry (TGA-FTIR-MS). Considering the thermal analysis data, FA was pyrolysed in a furnace at 350, 430, 570, 800, and 1000 °C, and the products were analysed by X-ray diffractometry (XRD), vibrational spectroscopy, and X-ray photoelectron spectroscopy. In situ high-temperature X-ray diffractometry (HT-XRD) experiments were also conducted under the nitrogen atmosphere. According to the data set, insights about FA decomposition steps could be proposed, including gaseous/volatile products released during the process and the structural evolution of N-doped graphitic carbon. The formation of carbonaceous material initiated between 200 and 350 °C through polymerisation/condensation reactions, and this step was marked by the release of 2-pyrrolidone and aniline. The graphitisation was enhanced above 350 °C, increasing graphitic nitrogen while the amide groups vanished. The process was accompanied by deoxygenation (i.e., CO and CO2 release) and denitrogenation (e.g., NH3, HNCO, and HCN) reactions. In the 570–800 °C range, the N-enrichment of carbon material (N-pyridine, N-pyrrole/Csp2-N in 5,7-membered rings, and nitrile) could occur by the reaction of released NH3 over the char surface. Graphitic-like structures containing mainly N-graphite and N-pyridine were obtained above 800 °C. The original data about the thermal decomposition steps of FA allow for optimising the synthesis of N-doped carbon materials suitable for applications in adsorption, sensing, catalysis, and energy storage.

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来源期刊
Thermochimica Acta
Thermochimica Acta 化学-分析化学
CiteScore
6.50
自引率
8.60%
发文量
210
审稿时长
40 days
期刊介绍: Thermochimica Acta publishes original research contributions covering all aspects of thermoanalytical and calorimetric methods and their application to experimental chemistry, physics, biology and engineering. The journal aims to span the whole range from fundamental research to practical application. The journal focuses on the research that advances physical and analytical science of thermal phenomena. Therefore, the manuscripts are expected to provide important insights into the thermal phenomena studied or to propose significant improvements of analytical or computational techniques employed in thermal studies. Manuscripts that report the results of routine thermal measurements are not suitable for publication in Thermochimica Acta. The journal particularly welcomes papers from newly emerging areas as well as from the traditional strength areas: - New and improved instrumentation and methods - Thermal properties and behavior of materials - Kinetics of thermally stimulated processes
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