Contribution Evaluation of Physical Hole Structure, Hydrogen Bond, and Electrostatic Attraction on Dye Adsorption through Individual Experiments

Adsorption Science & Technology Pub Date : 2023-01-27 DOI:10.1155/2023/4596086

Wengang Wang, Lei Wang, Ming Zhang, Bo Yu, Xiaoning Li, Han Yan

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Abstract

Disagreements over various unanswered questions about contribution of the adsorption process and functional groups on dye adsorption still exist. The main aim of this research was to evaluate the contributions of physical hole structure, hydrogen bond, and electrostatic attraction on dye adsorption. Three ideal representatives, namely, a sponge with porous structure, P(AM) containing -CONH2 groups, and P(AANa/AM) containing -COONa groups, were chosen to evaluate the above contributions. The methylene blue (MB) removal rates of these three products were compared through individual experiments. The results revealed that physical hole structure did not play a role in decreasing dye concentration. Hydrogen bond existed in dye adsorption but did not remarkably reduce dye concentration. The excellent removal results of P(AANa/AM) demonstrated that electrostatic attraction was critical in enriching dye contaminants from the solution into solid adsorbent. The results could provide insights into the dye adsorption mechanisms for further research.

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通过个体实验评价物理孔结构、氢键和静电吸引对染料吸附的贡献

关于吸附过程和官能团对染料吸附的贡献等各种悬而未决的问题仍然存在分歧。本研究的主要目的是评价物理孔结构、氢键和静电吸引对染料吸附的贡献。选择具有多孔结构的海绵、含有-CONH2基团的P(AM)和含有-COONa基团的P(AANa/AM)三个理想代表来评价上述贡献。通过单独实验比较了三种产物对亚甲基蓝的去除率。结果表明，物理孔结构对降低染料浓度没有作用。在染料吸附过程中存在氢键，但不显著降低染料浓度。对P(AANa/AM)的良好去除效果表明，静电吸引是将溶液中的染料污染物富集到固体吸附剂中的关键。该结果为进一步研究染料吸附机理提供了依据。

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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Adsorption Science & Technology

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