Effective Surface Structure Changes and Characteristics of Activated Carbon with the Simple Introduction of Oxygen Functional Groups by Using Radiation Energy

Surfaces Pub Date : 2023-12-22 DOI:10.3390/surfaces7010002

So Yeong Yang, B. Bai, Yong Ryeol Kim

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Abstract

In recent years, research has aimed to enhance the environmental friendliness of activated carbon by modifying its surface properties to effectively capture specific harmful gases. This study’s primary goal is to swiftly introduce oxygen functional groups to activated carbon surfaces using microwave and plasma techniques and evaluate their characteristics. In the microwave method, we varied nitric acid concentrations and treatment durations for surface modification. Additionally, plasma treatment was used to introduce oxygen functional groups for comparative purposes. Surface characteristics were assessed through SEM, BET, XPS, and FT-IR analyses. The results indicate that in the microwave method, the quantity of oxygen functional groups increased with longer reaction times. Specifically, the sample treated for 20 min with 8 moles of nitric acid displayed an oxygen content of 14.11 at%, and higher nitric acid concentrations led to a reduced specific surface area. In the case of plasma treatment, higher oxygen flow rates resulted in an O1s content of 17.1 at%, and an increase in oxygen flow rate introduced more oxygen functional groups but decreased the specific surface area.

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利用辐射能简单引入氧官能团后活性炭表面结构的有效变化及其特征

近年来，研究人员一直致力于通过改变活性炭的表面特性来提高其环保性，从而有效捕捉特定的有害气体。本研究的主要目标是利用微波和等离子技术在活性炭表面迅速引入氧官能团，并评估其特性。在微波法中，我们改变了硝酸浓度和处理时间，以进行表面改性。此外，我们还使用等离子体处理法引入氧官能团，以进行比较。通过 SEM、BET、XPS 和 FT-IR 分析评估了表面特性。结果表明，在微波法中，氧官能团的数量随着反应时间的延长而增加。具体来说，用 8 摩尔硝酸处理 20 分钟的样品中氧含量为 14.11%，硝酸浓度越高，比表面积越小。在等离子处理的情况下，较高的氧气流速导致 O1s 含量达到 17.1%，氧气流速的增加引入了更多的氧官能团，但比表面积却减小了。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Surfaces

CiteScore

4.40

自引率

0.00%

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