铃木-宫浦偶联反应50公斤生产的经验教训

IF 3.5 3区化学 Q2 CHEMISTRY, APPLIED

Organic Process Research & Development Pub Date : 2025-08-18 DOI:10.1021/acs.oprd.5c00207

Yuhei Yamamoto*, Kotaro Yamaguchi and Kentaro Yaji,

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引用次数: 0

摘要

本研究介绍了将Suzuki-Miyaura偶联反应扩大到50公斤规模的经验教训。优化反应条件为89 ~ 90℃，对应溶剂体系（2-BuOH/H2O, 7/3）的沸点。这种规模的生产是在位于高海拔的合同制造组织（CMO）进行的，需要使用压力容器将内部温度保持在所需范围内。反应、检查和结晶过程在严格的厌氧条件下进行，以防止通常与钯催化反应相关的不良事件。然而，获得的晶体表现出意想不到的杂质水平和高残留钯浓度。综合研究发现，在反应过程中升高的外部温度和在修井和结晶过程中严格的厌氧条件是造成这些偏差的主要原因。这些发现强调了扩大钯催化反应的关键考虑因素，并强调了温度和氧气控制方面的潜在盲点。

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Lessons Learned during 50 kg Manufacturing of Suzuki–Miyaura Coupling Reaction

This study presents the lessons learned from scaling up the Suzuki–Miyaura coupling reaction to a 50 kg scale. The reaction conditions were optimized at 89–90 °C, corresponding to the boiling point of the solvent system (2-BuOH/H₂O, 7/3). Manufacturing at this scale was conducted at a contract manufacturing organization (CMO) situated at high altitude, requiring the use of a pressure vessel to maintain the internal temperature within the desired range. Reaction, workup, and crystallization processes were performed under stringent anaerobic conditions to prevent adverse events typically associated with palladium-catalyzed reactions. However, the obtained crystals exhibited unexpected impurity levels and elevated residual palladium concentrations. Comprehensive investigations identified elevated external temperatures during the reaction and strict anaerobic conditions during workup and crystallization as the primary contributors to these deviations. The findings underscore critical considerations for scaling up palladium-catalyzed reactions and highlight potential blind spots in temperature and oxygen control.

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来源期刊

Organic Process Research & Development 化学-应用化学

CiteScore

6.90

自引率

14.70%

发文量

251

审稿时长

2 months

期刊介绍： The journal Organic Process Research & Development serves as a communication tool between industrial chemists and chemists working in universities and research institutes. As such, it reports original work from the broad field of industrial process chemistry but also presents academic results that are relevant, or potentially relevant, to industrial applications. Process chemistry is the science that enables the safe, environmentally benign and ultimately economical manufacturing of organic compounds that are required in larger amounts to help address the needs of society. Consequently, the Journal encompasses every aspect of organic chemistry, including all aspects of catalysis, synthetic methodology development and synthetic strategy exploration, but also includes aspects from analytical and solid-state chemistry and chemical engineering, such as work-up tools，process safety, or flow-chemistry. The goal of development and optimization of chemical reactions and processes is their transfer to a larger scale; original work describing such studies and the actual implementation on scale is highly relevant to the journal. However, studies on new developments from either industry, research institutes or academia that have not yet been demonstrated on scale, but where an industrial utility can be expected and where the study has addressed important prerequisites for a scale-up and has given confidence into the reliability and practicality of the chemistry, also serve the mission of OPR&D as a communication tool between the different contributors to the field.