Comparing specific capacitance in rice husk-derived activated carbon through phosphoric acid and potassium hydroxide activation order variations

IF 3.8 2区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Scientific Reports Pub Date : 2024-01-17 DOI:10.1038/s41598-023-49675-0
Nasser A. M. Barakat, Mohamed S. Mahmoud, Hager M. Moustafa
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Abstract

This manuscript investigates the influence of the chemical activation step order and process parameters on the specific capacitance of activated carbon derived from rice husk. The chemical activation was performed either before or after the carbonization step, using phosphoric acid (H3PO4) and potassium hydroxide (KOH) as activating agents. For activation before carbonization, the carbonization process was conducted at various temperatures (600, 750, 850, and 1050 °C). On the other hand, for activation after carbonization, the effect of the volume of the chemical agent solution was studied, with 0, 6, 18, 21, 24, and 30 mL/g of phosphoric acid and 0, 18, 30, 45, 60, and 90 mL/g of 3.0 M KOH solution. The results revealed that in the case of chemical activation before carbonization, the optimum temperature for maximizing specific capacitance was determined to be 900 °C. Conversely, in the case of chemical activation after carbonization, the optimal volumes of the chemical agent solutions were found to be 30 mL/g for phosphoric acid (H3PO4) and 21 mL/g for potassium hydroxide (KOH). Moreover, it was observed that utilizing phosphoric acid treatment before the carbonization step leads to an 21% increase in specific capacitance, attributed to the retention of inorganic compounds, particularly silica (SiO2). Conversely, when rice husks were treated with KOH after the carbonization step, the specific capacitance was found to be doubled compared to treatment with KOH prior to the carbonization step due to embedding of SiO2 and KHCO3 inorganic constituents. This study provides valuable insights into the optimization of the chemical activation step order and process parameters for enhanced specific capacitance in rice husk-derived activated carbon. These findings contribute to the development of high-performance supercapacitors using rice husk as a sustainable and cost-effective precursor material.

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通过磷酸和氢氧化钾活化顺序变化比较稻壳衍生活性炭的比电容
本手稿研究了化学活化步骤顺序和工艺参数对稻壳活性炭比电容的影响。化学活化在碳化步骤之前或之后进行,使用磷酸(H3PO4)和氢氧化钾(KOH)作为活化剂。对于碳化前的活化,碳化过程在不同的温度(600、750、850 和 1050 ℃)下进行。另一方面,对于碳化后的活化,研究了化学剂溶液体积的影响,磷酸溶液的体积分别为 0、6、18、21、24 和 30 mL/g,3.0 M KOH 溶液的体积分别为 0、18、30、45、60 和 90 mL/g。结果表明,在碳化前进行化学活化的情况下,比电容最大化的最佳温度为 900 ℃。相反,在碳化后进行化学活化的情况下,化学剂溶液的最佳体积为磷酸(H3PO4)30 mL/g,氢氧化钾(KOH)21 mL/g。此外,还观察到在碳化步骤之前使用磷酸处理可使比电容增加 21%,这归因于无机化合物的保留,尤其是二氧化硅(SiO2)。相反,在碳化步骤后用 KOH 处理稻壳时,由于二氧化硅和 KHCO3 等无机成分的嵌入,比电容比碳化步骤前用 KOH 处理时增加了一倍。这项研究为优化化学活化步骤顺序和工艺参数以提高稻壳衍生活性炭的比电容提供了宝贵的见解。这些发现有助于利用稻壳作为一种可持续和具有成本效益的前驱体材料开发高性能超级电容器。
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来源期刊
Scientific Reports
Scientific Reports Natural Science Disciplines-
CiteScore
7.50
自引率
4.30%
发文量
19567
审稿时长
3.9 months
期刊介绍: We publish original research from all areas of the natural sciences, psychology, medicine and engineering. You can learn more about what we publish by browsing our specific scientific subject areas below or explore Scientific Reports by browsing all articles and collections. Scientific Reports has a 2-year impact factor: 4.380 (2021), and is the 6th most-cited journal in the world, with more than 540,000 citations in 2020 (Clarivate Analytics, 2021). •Engineering Engineering covers all aspects of engineering, technology, and applied science. It plays a crucial role in the development of technologies to address some of the world''s biggest challenges, helping to save lives and improve the way we live. •Physical sciences Physical sciences are those academic disciplines that aim to uncover the underlying laws of nature — often written in the language of mathematics. It is a collective term for areas of study including astronomy, chemistry, materials science and physics. •Earth and environmental sciences Earth and environmental sciences cover all aspects of Earth and planetary science and broadly encompass solid Earth processes, surface and atmospheric dynamics, Earth system history, climate and climate change, marine and freshwater systems, and ecology. It also considers the interactions between humans and these systems. •Biological sciences Biological sciences encompass all the divisions of natural sciences examining various aspects of vital processes. The concept includes anatomy, physiology, cell biology, biochemistry and biophysics, and covers all organisms from microorganisms, animals to plants. •Health sciences The health sciences study health, disease and healthcare. This field of study aims to develop knowledge, interventions and technology for use in healthcare to improve the treatment of patients.
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