Organic Crystal Engineering:Frontiers in Crystal Engineering '10
Tiekink, E
著
発行年月 |
2010年01月 |
---|
|
出版国 |
イギリス |
---|
言語 |
英語 |
---|
媒体 |
冊子 |
---|
装丁 |
hardcover |
---|
|
ページ数/巻数 |
336 p. |
---|
|
|
ジャンル |
洋書/理工学/化学工学/移動操作・単位操作 |
---|
|
|
ISBN |
9780470319901 |
---|
|
商品コード |
0201240842 |
---|
|
|
|
本の性格 |
学術書 |
---|
|
|
|
商品URL
| https://kw.maruzen.co.jp/ims/itemDetail.html?itmCd=0201240842 |
---|
内容
Crystal Engineers are dedicated to controlling the way molecules aggregate in the crystalline phase and therefore are concerned with crystal structure prediction, polymorphism, and discovering the relative importance of different types of intermolecular forces and their influence on molecular structure. Crystal Engineers are exploiting the fruits of their labours by discovering new and important properties of their new materials.Organic Crystal Engineering provides reviews of topics in this field that will be of interest to all researchers in molecular solid–state chemistry. Specialist reviews written by internationally recognized researchers, drawn from both academia and industry, include discussions on:the role of the Cambridge Structural Database in crystal engineeringcomputational crystal structure prediction: towards in silico solid form screeningmulti–component pharmaceutical crystalline phases: engineering for performancecomplex formation of surfactants with aromatic compounds and their pharmaceutical applicationshydrogen bonding and molecular packing in multi–functional crystal structurespersistence of N–H...S hydrogen bonding in thiocarbamide structurescrystal engineering with the molecules containing amide and pyridine functionalitiesurea/thiourea–anion host lattices, stabilization of labile species, and designed construction of rosette ribbon and layersOrganic Crystal Engineering follows on from the successful Frontiers in Crystal Engineering (Wiley, 2005), providing a useful guide to this exciting new discipline for both entrants to the field as well as established practitioners, and for those working in crystallography, medicinal and pharmaceutical sciences, solid–state chemistry, and materials and nanotechnology.