根据发光数据研究依次稀释的荧光素水溶液的光学特性动态。

IF 3.8 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Frontiers in Chemistry Pub Date : 2024-10-16 eCollection Date: 2024-01-01 DOI:10.3389/fchem.2024.1439250
Dmitrii L Tytik, Viktor I Kuzmin, Olga V Souvorova, Alexandra A Revina
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引用次数: 0

摘要

文章讨论了稀释(稀释倍数为 24)的荧光素(Lc)水溶液的光学特性(发光)。研究了六个系列的 Lc 水溶液,每个系列 50 个样品。所有系列的第一个样品都是 Lc(C Lc = 8.2 × 10-7 mol/L)原液,其余样品都是按 24 的比例连续稀释得到的。前三个样品的 Lc 发光强度下降符合指数函数模型(稀释比:原液为零,第二和第三个样品分别为 24 和 24 × 24 = 242)。从第四个用于统计处理发光数据的样品开始,从构建的发射强度值秩分布中选出七个最大值。这种方法有助于在计算相关系数时消除 "随机大反弹 "的影响。在研究的第 50 个样品之前,记录的光度值的强度呈极具挑战性的线性逐渐下降趋势(所有系列的相关系数均接近-0.9)。对纯水 "稀释 "样品的六个参考系列进行类似分析后发现,在所研究的波长范围(Lc 带宽的特定波长,480-505 nm)内的最高发射值与样品的稀释倍数之间没有任何相关性。可以认为,在物质(Lc)消除后(理论上在使用的实验装置中,预计在第 13 个样品之后),在 Lc 顺序稀释的水溶液系列中记录的光度值可归因于 Lc 分子在溶解过程中水合过程中形成的长效水结构的逐渐破坏。
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Dynamics of optical properties of sequentially diluted lucigenin aqueous solutions according to luminescence data.

The article discusses optical properties (luminescence) of diluted (24 dilution factor) lucigenin (Lc) aqueous solutions. Six series of Lc aqueous solutions, with 50 samples in each series, were studied. The series were diluted on different days within random schedules, following a unified procedure: the first sample in all the series was the Lc (C Lc = 8.2 × 10-7 mol/L) stock solution, while the rest of the samples were obtained by successive dilution with the ratio of 24. For the first three samples, the Lc luminescence intensity decrease appropriately complied with the exponential function model (the dilution ratio: none for the stock solution, for the second and the third, 24 and 24 × 24 = 242, respectively). Starting from the fourth sample for statistical processing of luminescence data, the seven largest values were selected from the built rank distribution of emission intensity values. This method helps eliminate the influence of "random large bounces" when calculating the correlation coefficient. Up to the 50th studied sample, a challenging linear gradual decrease in the intensity of recorded photometric values was noted (correlation coefficients for all series being close to -0.9). Similar analysis of six reference series of pure water "dilution" samples did not exhibit any correlation between the highest emission values in the studied wavelength range (specific for Lc bandwidth, 480-505 nm) and the sample's dilution number. It can be assumed that photometric values, recorded in the series of Lc sequentially diluted aqueous solutions after substance (Lc) elimination (theoretically expected after the 13th sample within the used experimental setup), could be attributed to the gradual destruction of long-lived aqueous structures formed in the process of hydration of Lc molecules during its dissolution.

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来源期刊
Frontiers in Chemistry
Frontiers in Chemistry Chemistry-General Chemistry
CiteScore
8.50
自引率
3.60%
发文量
1540
审稿时长
12 weeks
期刊介绍: Frontiers in Chemistry is a high visiblity and quality journal, publishing rigorously peer-reviewed research across the chemical sciences. Field Chief Editor Steve Suib at the University of Connecticut is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to academics, industry leaders and the public worldwide. Chemistry is a branch of science that is linked to all other main fields of research. The omnipresence of Chemistry is apparent in our everyday lives from the electronic devices that we all use to communicate, to foods we eat, to our health and well-being, to the different forms of energy that we use. While there are many subtopics and specialties of Chemistry, the fundamental link in all these areas is how atoms, ions, and molecules come together and come apart in what some have come to call the “dance of life”. All specialty sections of Frontiers in Chemistry are open-access with the goal of publishing outstanding research publications, review articles, commentaries, and ideas about various aspects of Chemistry. The past forms of publication often have specific subdisciplines, most commonly of analytical, inorganic, organic and physical chemistries, but these days those lines and boxes are quite blurry and the silos of those disciplines appear to be eroding. Chemistry is important to both fundamental and applied areas of research and manufacturing, and indeed the outlines of academic versus industrial research are also often artificial. Collaborative research across all specialty areas of Chemistry is highly encouraged and supported as we move forward. These are exciting times and the field of Chemistry is an important and significant contributor to our collective knowledge.
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