利用铁电纳米粒子进行海水淡化

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-11 DOI:arxiv-2409.07318

Sergei V. Kalinin, Eugene A. Eliseev, Anna N. Morozovska

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引用次数: 0

摘要

铁电材料物理学的基本原理是通过离解吸附环境中的离子电荷来屏蔽未补偿的束缚电荷。当铁电材料经历从副电相到铁电状态的温度诱导转变时，离子的吸附作用会特别强烈。在这里，我们证明了在水溶液中，铁电纳米粒子的极性表面对离子和自由基的吸附是非常有效的，这是因为纳米粒子中存在很强的铁电-离子耦合。所获得的结果可用于制定无铅单轴铁电纳米粒子吸附水溶液中阳离子（Li+、K+、Na+ 等）、阴离子（Cl-、Br-、J-）和/或自由基（CO-、NH4+ 等）的替代方法和工具。该研究成果可能成为一种环境友好型方法，用于清洗不同水溶液中的离子污染，以及利用自然温度变化进行海水淡化。

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Water Desalination by Ferroelectric Nanoparticles

The fundamental aspect of physics of ferroelectric materials is the screening of uncompensated bound charges by the dissociative adsorption of ionic charges from the environment. The adsorption of ions can be especially strong when the ferroelectric undergoes the temperature induced transition from the paraelectric phase to the ferroelectric state. Here we demonstrate that the adsorption of ions and free radicals by the polar surface of ferroelectric nanoparticles can be very efficient in aqueous solutions due to the strong ferro-ionic coupling in the nanoparticles. Obtained results can be useful for the elaboration of alternative methods and tools for adsorption of the cations (Li+, K+, Na+, etc.), anions (Cl-, Br-, J-), and/or free radicals (CO-, NH4+, etc.) from aqueous solutions by the lead-free uniaxial ferroelectric nanoparticles. The results may become an alternative way for the environment-friendly cleaning of different aqueous solutions from ionic contamination as well as for the desalination of sea water using the natural temperature variations.

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arXiv - PHYS - Chemical Physics

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