碳点对通过光引发种子膨胀聚合制备双功能 Janus 粒子的影响

IF 4.1 2区化学 Q2 POLYMER SCIENCE Polymer Pub Date : 2024-09-12 DOI:10.1016/j.polymer.2024.127616

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引用次数: 0

摘要

随着工业的发展，水中重金属离子的检测和去除受到了广泛关注。獐牙菜颗粒以其独特的结构和功能化特性区别于其他许多材料。我们提出了一种以甲基丙烯酸甘氨酯（GMA）为单体、乙烯二甲基丙烯酸酯（EDMA）为交联剂制备碳点包覆双功能 Janus 粒子（Janus@CD）的简单光引发种子膨胀聚合方法。为了在相分离过程中调节颗粒形态，在反应体系中加入了碳点（CD）。结果表明，碳点的存在对 Janus 粒子的形状有显著影响。此外，Janus@CD 可直接用于 MnO4- 的吸附和检测。其检测限（LOD）为 6.39 nmol L-1，最大吸附容量为 23.9 mg g-1，符合 Langmuir 吸附模型。吸附平衡在 30 分钟内达到。结果表明，双功能 Janus@CD 在金属离子的检测和富集方面具有巨大潜力。

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Effect of carbon dot on preparation of dual-functional Janus particles via photo-initiated seed swelling polymerization

With the development of industry, the detection and removal of heavy metal ions from water has received much attention. Janus particles are distinguished from many other materials by their unique structure and functionalization. We proposed a simple photo-initiated seed swelling polymerization method for preparing carbon dot-coated dual-functional Janus particles (Janus@CD), using glycyl methacrylate (GMA) as monomer and ethylene dimethacrylate (EDMA) as crosslinker. In order to modulate the particle morphology during the phase separation process, carbon dot (CD) was added to the reaction system. The results demonstrated that the presence of CD had a significant effect on the shape of Janus particles. Furthermore, Janus@CD could be directly applied in the adsorption and detection for MnO₄⁻. The limit of detection (LOD) was 6.39 nmol L⁻¹, and the maximum adsorption capacity was 23.9 mg g⁻¹, in line with the Langmuir adsorption model. The adsorption equilibrium reached within 30 min. The results demonstrated that dual-functional Janus@CD would present great potential in the detection and enrichment for metal ions.

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来源期刊

Polymer 化学-高分子科学

CiteScore

7.90

自引率

8.70%

发文量

959

审稿时长

32 days

期刊介绍： Polymer is an interdisciplinary journal dedicated to publishing innovative and significant advances in Polymer Physics, Chemistry and Technology. We welcome submissions on polymer hybrids, nanocomposites, characterisation and self-assembly. Polymer also publishes work on the technological application of polymers in energy and optoelectronics. The main scope is covered but not limited to the following core areas: Polymer Materials Nanocomposites and hybrid nanomaterials Polymer blends, films, fibres, networks and porous materials Physical Characterization Characterisation, modelling and simulation* of molecular and materials properties in bulk, solution, and thin films Polymer Engineering Advanced multiscale processing methods Polymer Synthesis, Modification and Self-assembly Including designer polymer architectures, mechanisms and kinetics, and supramolecular polymerization Technological Applications Polymers for energy generation and storage Polymer membranes for separation technology Polymers for opto- and microelectronics.

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