Development of Pd-immobilized porous polymer catalysts via Bayesian optimization

IF 2.3 4区 化学 Q3 POLYMER SCIENCE
Xincheng Zhou, Hikaru Matsumoto, Masanori Nagao, Shuji Hironaka, Yoshiko Miura
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引用次数: 0

Abstract

In this study, a Pd-polymeric porous immobilized catalyst is prepared for the Suzuki–Miyaura coupling reactions by employing a Bayesian optimization method to optimize the catalyst. This research represents the first endeavor to utilize machine learning for the optimization of polymer-immobilized catalysts and provides a novel perspective on utilizing machine learning for the optimization of complex materials. This study presented the workflow of machine learning-guided optimization of Pd-immobilized porous polymer catalysts. Two independent variables (DVB and 1-decanol content) were involved in polymerization to maximize TOF as target variable in Suzuki–Miyaura coupling reaction. Bayesian optimization was applied for predictive modeling, and the optimized conditions were experimentally validated in subsequent iterations. By applying this workflow, the catalytic activity of immobilized polymer porous catalysts was successfully optimized using machine learning.

Abstract Image

Abstract Image

通过贝叶斯优化技术开发钯固定多孔聚合物催化剂
本研究采用贝叶斯优化方法制备了一种钯聚合物多孔固定化催化剂,用于Suzuki-Miyaura偶联反应。该研究首次尝试利用机器学习优化聚合物固定化催化剂,为利用机器学习优化复杂材料提供了新的视角。本研究介绍了机器学习指导下的多孔聚合物钯固定化催化剂优化工作流程。聚合反应涉及两个自变量(DVB 和 1-癸醇含量),以最大化 TOF 作为铃木-宫浦偶联反应的目标变量。贝叶斯优化法用于预测建模,优化条件在随后的迭代中得到了实验验证。通过应用这一工作流程,利用机器学习成功优化了固定化聚合物多孔催化剂的催化活性。
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来源期刊
Polymer Journal
Polymer Journal 化学-高分子科学
CiteScore
5.60
自引率
7.10%
发文量
131
审稿时长
2.5 months
期刊介绍: Polymer Journal promotes research from all aspects of polymer science from anywhere in the world and aims to provide an integrated platform for scientific communication that assists the advancement of polymer science and related fields. The journal publishes Original Articles, Notes, Short Communications and Reviews. Subject areas and topics of particular interest within the journal''s scope include, but are not limited to, those listed below: Polymer synthesis and reactions Polymer structures Physical properties of polymers Polymer surface and interfaces Functional polymers Supramolecular polymers Self-assembled materials Biopolymers and bio-related polymer materials Polymer engineering.
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