超越弗洛里原理：阶梯生长线性聚合中的环化和不均匀反应性

IF 11.7 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Science Advances Pub Date : 2025-05-09 DOI:10.1126/sciadv.adu8884

Yinghao Li, Hang Yin, Yi Situ, Jing Lyu, Wenxin Wang

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引用次数: 0

摘要

阶梯生长聚合（SGP）产物普遍存在，但自Flory的经典理论引入以来，对SGP反应的理论认识一直停滞不前。Flory的模型基于两个关键假设——官能团的反应性相等和没有环化——在指导现实世界的聚合过程方面存在不足。在这项工作中，我们通过考虑个体反应概率和环化趋势扩展了Flory的模型，使其适用于实际的SGP情况。此外，我们开发了一种自上而下的算法，能够从SGP过程中的分子量数据中提取有关聚合物生长和环化的关键信息。通过将该扩展模型应用于实际的SGP实验，我们揭示了它们的动力学机制，并展示了浓度如何影响聚合动力学，为预测和控制聚合物结构提供了有价值的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Beyond Flory’s principle: Cyclization and unequal reactivity in step-growth linear polymerization

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Beyond Flory’s principle: Cyclization and unequal reactivity in step-growth linear polymerization

Step-growth polymerization (SGP) products are ubiquitous, but the theoretical understanding of SGP reactions has stagnated since the introduction of Flory’s classical theory. Flory’s model based on two key assumptions—equal reactivity of functional groups and the absence of cyclization—falls short in guiding real-world polymerization processes. In this work, we extend Flory’s model by accounting for individual reaction probabilities and cyclization tendencies, making it applicable to real SGP situations. Moreover, we have developed a top-down algorithm capable of extracting crucial information about polymer growth and cyclization from molecular weight data during the SGP process. By applying this expanded model to real SGP experiments, we reveal their kinetic mechanisms and demonstrate how concentration affects polymerization kinetics, offering valuable insights for predicting and controlling the polymer structure.

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来源期刊

Science Advances 综合性期刊-综合性期刊

CiteScore

21.40

自引率

1.50%

发文量

1937

审稿时长

29 weeks

期刊介绍： Science Advances, an open-access journal by AAAS, publishes impactful research in diverse scientific areas. It aims for fair, fast, and expert peer review, providing freely accessible research to readers. Led by distinguished scientists, the journal supports AAAS's mission by extending Science magazine's capacity to identify and promote significant advances. Evolving digital publishing technologies play a crucial role in advancing AAAS's global mission for science communication and benefitting humankind.