通过戊二醛诱导的微凝胶框架超快制备MXene/PVA复合薄膜。

Ultra-fast fabrication of MXene/PVA composite films through glutaraldehyde induced microgel framework.

作者信息

Gan Ziwen, Qi Ranran, Chen Bowen, Yuan Gaofei, Liao Mingyi

机构信息

College of Transportation Engineering, Dalian Maritime University, Dalian, Liaoning, China.

出版信息

Heliyon. 2024 May 6;10(9):e30714. doi: 10.1016/j.heliyon.2024.e30714. eCollection 2024 May 15.

DOI:10.1016/j.heliyon.2024.e30714

PMID:38779331

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11110175/

Abstract

In this study, TiCT/PVA microgels were assembled through the introduction of glutaraldehyde and PVA into TiCT colloids. Subsequently, the microgels underwent vacuum-assisted filtration (VAF) and drying processes to fabricate TiCT/PVA self-assembled films (MPGF). This research effectively reduced VAF time by introducing a small amount of glutaraldehyde. The findings demonstrate that glutaraldehyde's chemical crosslinking prompts the formation of temporary microgel frameworks between Ti3C2Tx and PVA, enhancing water molecule transfer during VAF and improving film formation efficiency. Further analysis links VAF time is related to the particle size distribution of the microgels. Adjusting crosslinking and PVA quantity alters microgel crystalline structure and -OH hydrogen bonds, affecting particle size and VAF time. Additionally, films produced via rapid VAF exhibit promising mechanical properties for practical applications.

摘要

在本研究中，通过将戊二醛和聚乙烯醇（PVA）引入TiCT胶体中来组装TiCT/PVA微凝胶。随后，微凝胶经过真空辅助过滤（VAF）和干燥过程，以制备TiCT/PVA自组装膜（MPGF）。本研究通过引入少量戊二醛有效缩短了VAF时间。研究结果表明，戊二醛的化学交联促使在Ti3C2Tx和PVA之间形成临时微凝胶框架，增强了VAF过程中的水分子转移并提高了成膜效率。进一步分析表明，VAF时间与微凝胶的粒径分布有关。调整交联度和PVA用量会改变微凝胶的晶体结构和-OH氢键，从而影响粒径和VAF时间。此外，通过快速VAF制备的薄膜在实际应用中表现出良好的机械性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b74/11110175/9c4a4a6f5d84/gr1.jpg

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通过戊二醛诱导的微凝胶框架超快制备MXene/PVA复合薄膜。

Ultra-fast fabrication of MXene/PVA composite films through glutaraldehyde induced microgel framework.

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