Carbon Rich Compounds II, Macrocyclic Oligoacetylenes and Other Linearly Conjugated Systems [electronic resour
User Rating: Be the first one!
Author: Meijere, Armin, editor, SpringerLink (Online service)
Added by: sketch
Added Date: 2015-12-30
Language: eng
Subjects: Chemistry, Chemistry, Organic, Chemistry, Chemistry, Organic
Publishers: Springer Berlin Heidelberg
Collections: folkscanomy miscellaneous, folkscanomy, additional collections
ISBN Number: 9783540494515, 3540494510
Pages Count: 300
PPI Count: 300
PDF Count: 1
Total Size: 101.86 MB
PDF Size: 4.61 MB
Extensions: djvu, gif, pdf, gz, zip, torrent, log, mrc
Downloads: 332
Views: 382
Total Files: 18
Media Type: texts
Total Files: 5
TORRENT
springer 10 1007 3 540 49451 0 archive t...torrent
Last Modified: 2022-03-09 08:56:03
Download
Size: 8.08 KB
Description
Carbon Rich Compounds II, Macrocyclic Oligoacetylenes and Other Linearly Conjugated Systems
Author: Prof. Dr Armin de Meijere
Published by Springer Berlin Heidelberg
ISBN: 978-3-540-65301-1
DOI: 10.1007/3-540-49451-0
Table of Contents:
With contributions by numerous experts
Macrocyclic Structurally Homoconjugated Oligoacetylenes: Acetylene- and Diacetylene-Expanded Cycloalkanes and Rotanes -- Cyclic and Linear Acetylenic Molecular Scaffolding -- Macrocyclic Oligo(phenylacetylenes) and Oligo(phenyldiacetylenes) -- Carbon-Rich Molecular Objects from Multiply Ethynylated ?-Complexes -- Oligo- and Polyarylenes, Oligo- and Polyarylenevinylenes
The definition of Carbon Rich Compounds applied in this as in the previous volume (TCC Volume 196) of this series on the same general topic comprises carbon skeletons with a carbon to hydrogen ratio of 1:(kleiner gleich 1), which ultimately implies all-carbon compounds (i.e. carbon allotropes). The current volume covers modern methods for the coupling - mostly metal catalyzed - of subsystems consisting of double bonds, cyclopropyl groups, arenes, and metal-complexed pi-systems with acetylene and diacetylene units. The resulting structures range from macrocycles, including those with all sorts of linkers between the acetylene and diacetylene units, to conducting polymers and light-emitting materials. Wherever appropriate, chemical transformations of these intriguing compounds and materials are discussed as well
Author: Prof. Dr Armin de Meijere
Published by Springer Berlin Heidelberg
ISBN: 978-3-540-65301-1
DOI: 10.1007/3-540-49451-0
Table of Contents:
- Macrocyclic Structurally Homoconjugated Oligoacetylenes: Acetylene- and Diacetylene-Expanded Cycloalkanes and Rotanes
- Cyclic and Linear Acetylenic Molecular Scaffolding
- Macrocyclic Oligo(phenylacetylenes) and Oligo(phenyldiacetylenes)
- Carbon-Rich Molecular Objects from Multiply Ethynylated π-Complexes
- Oligo- and Polyarylenes, Oligo- and Polyarylenevinylenes
With contributions by numerous experts
Macrocyclic Structurally Homoconjugated Oligoacetylenes: Acetylene- and Diacetylene-Expanded Cycloalkanes and Rotanes -- Cyclic and Linear Acetylenic Molecular Scaffolding -- Macrocyclic Oligo(phenylacetylenes) and Oligo(phenyldiacetylenes) -- Carbon-Rich Molecular Objects from Multiply Ethynylated ?-Complexes -- Oligo- and Polyarylenes, Oligo- and Polyarylenevinylenes
The definition of Carbon Rich Compounds applied in this as in the previous volume (TCC Volume 196) of this series on the same general topic comprises carbon skeletons with a carbon to hydrogen ratio of 1:(kleiner gleich 1), which ultimately implies all-carbon compounds (i.e. carbon allotropes). The current volume covers modern methods for the coupling - mostly metal catalyzed - of subsystems consisting of double bonds, cyclopropyl groups, arenes, and metal-complexed pi-systems with acetylene and diacetylene units. The resulting structures range from macrocycles, including those with all sorts of linkers between the acetylene and diacetylene units, to conducting polymers and light-emitting materials. Wherever appropriate, chemical transformations of these intriguing compounds and materials are discussed as well
You May Also Like
We will be happy to hear your thoughts