Carbon-based electroactive ion exchange materials: Ultrahigh removal efficiency and ion selectivity for rapid removal of Cs plus ions

Rong Yaqin; Li Shuai; Niu Junjian; Wang Zhongde; Hao Xiaogang; Song Chengwen; Wang Tonghua; Guan Guoqing

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Carbon-based electroactive ion exchange materials: Ultrahigh removal efficiency and ion selectivity for rapid removal of Cs plus ions

机译：基于碳的电活性离子交换材料：超高除去效率和离子选择性，用于快速去除CS加离子

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Radioactive cesium (137Cs) ions exhibit high-energy gamma radiation and long half-life. When they enter water body, serious environmental problems and damage to the human body are always generated. Herein, an electroactive composite membrane was facilely prepared by uniformly deposition of nickel hexacyanoferrate (NiHCF) nanoparticles on the surface and inner wall of coal-based tubular carbon membrane (CTCM) for rapid and selective separation of Cs+ from wastewater. This NiHCF incorporated CTCM tube exhibited an extremely high removal rate (over 99.99%) over a long period. Meanwhile, it also demonstrated extreme Cs+ selectivities even in the solutions with high coexisting ion concentrations (e.g., Cs+:Na+ = 1:99, Cs+:K+ = 1:99). The rapid and selective Cs+ uptake/release should be attributed to the better dispersion of NiHCF nanoparticles with high selectivity to Cs+ in the CTCM tube, which reduced the mass transfer distance, increased fluid turbulence and accelerated mass transfer rate. It is expected that such a NiHCF incorporated CTCM tube could be a promising alternative of conventional materials for the separating of radioactive Cs+ ions.

机译：放射性铯（137Cs）离子具有高能伽马辐射和长半衰期。当它们进入水体时，总是会产生严重的环境问题和对人体的损害。在此，通过在煤基管状碳膜（CTCM）的表面和内壁均匀沉积六氰亚铁酸镍（NiHCF）纳米颗粒，方便地制备了电活性复合膜，用于从废水中快速、选择性地分离Cs+。这种含有NiHCF的CTCM管在很长一段时间内表现出极高的去除率（超过99.99%）。同时，即使在共存离子浓度较高（如Cs+：Na+=1:99，Cs+：K+=1:99）的溶液中，它也表现出极高的Cs+选择性。Cs+的快速和选择性吸收/释放应归因于NiHCF纳米颗粒在CTCM管中更好地分散，对Cs+具有高选择性，从而缩短了传质距离，增加了流体湍流，加快了传质速率。预计这种含有NiHCF的CTCM管可能是分离放射性Cs+离子的常规材料的有希望的替代品。

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来源
《Separation and Purification Technology》 |2021年第1期|共9页
作者
Rong Yaqin; Li Shuai; Niu Junjian; Wang Zhongde; Hao Xiaogang; Song Chengwen; Wang Tonghua; Guan Guoqing;
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作者单位

Taiyuan Univ Technol Dept Chem Engn Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol Dept Chem Engn Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol Dept Chem Engn Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol Dept Chem Engn Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol Dept Chem Engn Taiyuan 030024 Peoples R China;

Dalian Maritime Univ Coll Environm Sci &

Engn 1 Linghai Rd Dalian 116026 Peoples R China;

Dalian Univ Technol Sch Chem Engn State Key Lab Fine Chem Grp Carbon Membranes &

Porous Mat Dalian 116024 Liaoning Peoples R China;

Hirosaki Univ Inst Reg Innovat Dept Renewable Energy 2-1-3 Matsubara Aomori 0300813 Japan;

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原文格式 PDF
正文语种 eng
中图分类分离过程;气化工艺;
关键词
Electroactive composite membrane; Nickel hexacyanoferrate nanoparticles; Coal-based tubular carbon membrane; Ultrahigh removal efficiency; High ion selectivity; Radioactive cesium removal;

机译：电活性复合膜;铁氰化镍纳米颗粒;煤基管状碳膜;超高的去除效率;高离子选择性;放射性铯去除;

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Carbon-based electroactive ion exchange materials: Ultrahigh removal efficiency and ion selectivity for rapid removal of Cs plus ions

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