Bimodal Magneto‐Luminescent Response of Lanthanide Metallopolymers for Distinguishing of Phosphates in Aqueous Solutions

IF 2.5 4区 化学 Q3 POLYMER SCIENCE
Alexey P. Dovzhenko, Vadim A. Vasilyev, Timur A. Kornev, Alexander A. Chinarev, Alexey V. Nizovtsev, Rustem R. Zairov, Oleg G. Sinyashin, Asiya R. Mustafina
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引用次数: 0

Abstract

Linear N‐substituted polyacrylamides bearing tricarboxylic moieties pendant to the backbone are synthesized, and coordinative binding approach is developed to convert them into Gd3+/Eu3+‐metallopolymers. Inner‐sphere coordination of the lanthanide ions with the pendant chelating moieties, together with their outer‐sphere stabilization by the randomly coiled backbone, are the reasons for peculiar water proton relaxation and luminescence properties of the metallopolymers obtained. Indeed, for Gd3+‐metallopolymer, the values of longitudinal and transverse relaxivity (r1 and r2) are 50 and 60 mm−1·s−1, respectively, while for the Eu3+‐counterpart, Eu3+‐centered luminescence is significantly raised compared to Eu3+ aquaions. Coil‐like conformation of the metallopolymer molecules undergoes a swelling at pH values above 5.0 as evidenced by transmission electron microscopy TEM and dynamic light scattering (DLS) data, which is followed by the changes in the Eu3+‐centered luminescence and r1(2)‐values of Gd3+/Eu3+‐metallopolymers. The phosphates additives (adenosine monophosphoric acid (AMP), adenosine diphosphoric acid (ADP), HPO42− and adenosine triphosphoric acid (ATP) induce well detectable changes in both water proton relaxation and luminescence of Gd3+/Eu3+‐metallopolymers. The luminescent changes distinguish AMP from the other phosphates, while the changes in water proton relaxation are greater for HPO42− and ATP compared to AMP and ADP. This study explains this by interplay of the effects associated with the formation of ternary phosphate‐lanthanide‐polymer complexes and stripping of lanthanide ions from the polymer molecules.
用于区分水溶液中磷酸盐的镧系金属聚合物的双模磁致发光响应
我们合成了在骨架上悬挂三羧基的线性 N-取代聚丙烯酰胺,并开发了配位结合方法将其转化为 Gd3+/Eu3+ 金属聚合物。镧系离子与悬垂螯合基团的内球配位,以及随机盘绕的骨架对其外球的稳定作用,是所获得的金属聚合物具有奇特的水质子弛豫和发光特性的原因。事实上,Gd3+ 金属聚合物的纵向和横向弛豫度(r1 和 r2)值分别为 50 和 60 mm-1-s-1,而 Eu3+ 金属聚合物的 Eu3+ 为中心的发光特性则比 Eu3+ 水离子显著提高。透射电子显微镜(TEM)和动态光散射(DLS)数据表明,当 pH 值高于 5.0 时,金属聚合物分子的线圈状构象会发生膨胀,随后 Gd3+/Eu3+ 金属聚合物的 Eu3+ 中心发光和 r1(2) 值也会发生变化。磷酸盐添加剂(单磷酸腺苷(AMP)、二磷酸腺苷(ADP)、HPO42- 和三磷酸腺苷(ATP))会引起 Gd3+/Eu3+ 金属聚合物的水质子弛豫和发光发生可检测到的变化。发光变化将 AMP 与其他磷酸盐区分开来,而与 AMP 和 ADP 相比,HPO42- 和 ATP 的水质子弛豫变化更大。这项研究解释了形成三元磷酸盐-镧系元素-聚合物复合物和镧系元素离子从聚合物分子中剥离所产生的相互作用。
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来源期刊
Macromolecular Chemistry and Physics
Macromolecular Chemistry and Physics 化学-高分子科学
CiteScore
4.30
自引率
4.00%
发文量
278
审稿时长
1.4 months
期刊介绍: Macromolecular Chemistry and Physics publishes in all areas of polymer science - from chemistry, physical chemistry, and physics of polymers to polymers in materials science. Beside an attractive mixture of high-quality Full Papers, Trends, and Highlights, the journal offers a unique article type dedicated to young scientists – Talent.
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