Raining-inspired method for construction of porous film material

IF 5.4 1区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

GIANT Pub Date : 2024-05-23 DOI:10.1016/j.giant.2024.100293

Xiaomin Wang , Heyi Pan , Lin Lian , Xiangjun Gong , Yang Wang , Chaoqun Zhang

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Abstract

The low-temperature environment caused by solvent evaporation leads to the condensation of water vapor into water droplets that remain on the surface of the film to form breath figure patterns. The conventional approach to regulate the pore morphology in the breath figure process is to optimize the ambient temperature, humidity, and solution concentration. However, realizing a wide adjustable window of pore size and uniform distribution of the pore are still challenges. Here, inspired by the rainfall phenomenon, we proposed a simple and efficient method called the “raining boxing method” (RBM) for preparing porous films based on exogenously given water droplets as templates. The RBM broadened the adjustable window of pore size (0.6–225 µm in this work) and solved the inherent problem of radial reduction of pore size from the film center to the edge caused by the significant difference in low-temperature duration at different locations accompanying the solvent evaporation process. Furthermore, this method could realize multi-types porous films, including surface porous films, spongy porous films, and honeycomb porous films, and could be universally applied in the casting process of various polymer solutions.

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受雨水启发的多孔薄膜材料构建方法

溶剂蒸发造成的低温环境会导致水蒸气凝结成水滴，这些水滴留在薄膜表面，形成呼吸图纹。调节透气图形过程中孔隙形态的传统方法是优化环境温度、湿度和溶液浓度。然而，实现孔隙大小的宽可调窗口和孔隙的均匀分布仍然是一个挑战。在此，我们受降雨现象的启发，提出了一种简单而高效的方法，即 "降雨拳法"（RBM），用于以外加水滴为模板制备多孔薄膜。RBM 拓宽了孔径的可调窗口（本研究中为 0.6-225 µm），解决了溶剂蒸发过程中不同位置低温持续时间的显著差异导致孔径从薄膜中心向边缘径向减小的固有问题。此外，该方法可实现多类型多孔薄膜，包括表面多孔薄膜、海绵状多孔薄膜和蜂窝状多孔薄膜，可普遍应用于各种聚合物溶液的浇铸过程。

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来源期刊

GIANT Multiple-

CiteScore

8.50

自引率

8.60%

发文量

审稿时长

42 days

期刊介绍： Giant is an interdisciplinary title focusing on fundamental and applied macromolecular science spanning all chemistry, physics, biology, and materials aspects of the field in the broadest sense. Key areas covered include macromolecular chemistry, supramolecular assembly, multiscale and multifunctional materials, organic-inorganic hybrid materials, biophysics, biomimetics and surface science. Core topics range from developments in synthesis, characterisation and assembly towards creating uniformly sized precision macromolecules with tailored properties, to the design and assembly of nanostructured materials in multiple dimensions, and further to the study of smart or living designer materials with tuneable multiscale properties.