Mechanochemistry : from functional solids to single molecules : Montréal, Canada, 21-23 May 2014
著者
書誌事項
Mechanochemistry : from functional solids to single molecules : Montréal, Canada, 21-23 May 2014
(Faraday discussions, v. 170)
Royal Society of Chemistry, 2014
大学図書館所蔵 件 / 全2件
-
該当する所蔵館はありません
- すべての絞り込み条件を解除する
注記
"A General Discussion on Mechanochemistry was held in Montréal, Canada on the 21st, 22nd and 23rd of May 2014."--P. 5
Includes bibliographical references
内容説明・目次
内容説明
Mechanochemical reactions utilise mechanical force to achieve chemical transformation. Because they can be both solvent-free and less energy consuming than standard solution reactions, mechanochemical transformations are rapidly becoming popular as a sustainable alternative to conventional solution-based and solvothermal chemical processes which are inherently wasteful of solvent and energy in both the laboratory and industry.
The growing interest in mechanochemical processes has in the past decade provided exciting developments in the areas of supramolecular, pharmaceutical, materials and organic chemistry and catalysis. These developments indicate that mechanochemistry will play a key role in future clean and sustainable technologies, ranging from “green” synthesis to mineral manufacturing and nanoparticle synthesis.
However, such development requires improving the understanding of the underlying principles of mechanochemistry and extensive communication between researchers in its different areas. The 170th Faraday Discussion will facilitate further development of mechanochemistry in terms of applications, definitions and mechanistic understanding, and explore how its innovative, clean and energy-efficient applications could form the basis of new paradigm for academic and industrial chemistry.
In this volume the topics covered include:
• the mechanochemistry of organic molecules and soft organic molecules
• the mechanochemistry of inorganic compounds and coordination-based materials
• sonication and macromolecular mechanochemistry
• the mechanistic understanding, catalysis and scaling up of mechanochemistry
「Nielsen BookData」 より