Palladium-Catalyzed Mechanochemical Cross-Coupling Reactions
Seo, Tamae
- 出版商: Springer
- 出版日期: 2024-07-02
- 售價: $8,700
- 貴賓價: 9.5 折 $8,265
- 語言: 英文
- 頁數: 278
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 9819719909
- ISBN-13: 9789819719907
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商品描述
In this thesis, the author developed cross-coupling reactions that proceed in the solid state without using organic solvents, utilizing a mechanochemical synthesis method using a ball mill. Compared to conventional solution systems, the reactions realized a drastic reduction of chemical waste, a drastic acceleration of chemical reactions, and efficient transformations of insoluble compounds. The thesis demonstrates that mechanochemical synthesis method has the potential to revolutionize organic synthesis. Readers can learn not only about mechanochemical synthesis but also about new reactions and syntheses of new compounds that could not be obtained under solution conditions. Recently, mechanochemical synthesis has become increasingly popular among a wide range of researchers as an environmentally friendly and highly efficient method, so this thesis has a timely publication.
商品描述(中文翻譯)
在這篇論文中,作者開發了一種在固態中進行交叉偶合反應的方法,而不使用有機溶劑,利用了一種使用球磨機的機械化學合成方法。與傳統的溶液系統相比,這些反應實現了化學廢物的大幅減少,化學反應的大幅加速,以及對不溶化合物的高效轉化。該論文證明了機械化學合成方法有潛力革命有機合成。讀者不僅可以了解機械化學合成,還可以了解在溶液條件下無法獲得的新反應和新化合物的合成。最近,機械化學合成作為一種環境友好且高效的方法,在廣泛的研究人員中越來越受歡迎,因此這篇論文的出版非常及時。
作者簡介
Tamae Seo received a Ph.D. in engineering from Hokkaido University in 2023. Her research field was organic synthesis, and particularly she was engaged in research on palladium-catalyzed cross-coupling reactions using mechanohemistry. She has published 13 papers about mechanochemical reactions, and these papers demonstrated that the mechanochemical synthesis method has the potential to revolutionize organic synthesis. She has received many awards for presentations at academic conferences, and in 2023 she won the L'Oréal-UNESCO For Women in Science Japan Fellowship Award.
作者簡介(中文翻譯)
Tamae Seo於2023年從北海道大學獲得工程學博士學位。她的研究領域是有機合成,尤其是在使用機械化學方法進行鈀催化交叉偶合反應的研究中。她已經發表了13篇關於機械化學反應的論文,這些論文證明了機械化學合成方法有潛力革命有機合成。她在學術會議上的演講獲得了許多獎項,並且在2023年獲得了L'Oréal-UNESCO婦女科學獎日本獎助金。