ABE-IPSABE HOLDINGABE BOOKS
English Polski
On-line access

Bookstore

0.00 PLN
Bookshelf (0) 
Your bookshelf is empty
Multifunctional Molecular Magnets Based on Octacyanidometalates

Multifunctional Molecular Magnets Based on Octacyanidometalates

Authors
Publisher Springer, Berlin
Year
Pages 89
Version hardback
Language English
ISBN 9789811061349
Categories Inorganic chemistry
Delivery to United States

check shipping prices
Ask about the product
Email
question
  Send
Add to bookshelf

Book description

This thesis demonstrates the novel magnetic functionalities in cyanido-bridged metal assemblies, and as such appeals to readers in the field of materials science. The utilization of octacyanidometalates as building blocks enables the observation of (i) photo-induced magnetization due to a light-induced spin-crossover in an iron octacyanidoniobate-based assembly, (ii) photo-induced magnetization with a two-step spin-crossover behavior in an iron octacyanidoniobate-based material, and (iii) the coexistence of super-ionic conductivity and metamagnetism in a manganese-octacyanoniobate system. These multi-functionalities are achieved by incorporating a spin-crossover moiety or a hydrogen-bonding network into a cyanido-bridged network structure with a strong magnetic interaction. In particular, in light-induced spin-crossover magnets, a magnetically non-ordered state can be altered to a magnetically ordered state by photo-irradiation, which is one of the attractive mechanisms for novel optical switching devices.

Multifunctional Molecular Magnets Based on Octacyanidometalates

Table of contents

1. Introduction.- 2. Light-induced Spin-crossover Magnetism in an Iron Octacyanidoniobate-based Assembly.- 3. Two-step Spin-crossover and Photo-induced Spin-crossover in an Iron Octacyanidoniobate-based Assembly.- 4. Observation of Coexistence of Super-ionic Conductivity and Metamagnetism in a Manganese Octacyanidoniobate-based Assembly.- 5. Summary and Perspective.

We also recommend books

Strony www Białystok Warszawa
801 777 223