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Interpenetrating Organometallic Polymer Networks (IOPN's): Novel Advanced Materials

Published online by Cambridge University Press:  15 February 2011

B. Corain ,
M. Zecca ,
C. Corvaja ,
G. Palma ,
S. Lora  and
K. Jerabek
B. Corain
Affiliation:
University of Padova, Dept. Inorganic Chemistry, via Marzolo 1, and Dept. Physical Chemistry, via Loredan 2, 135131 Padova, Italy C.N.R.,Centro Studio Stabilità e Reattività Composti Coordinazione, via Marzolo 1, I35131 Padova, Italy and Institute F.R.A.E., I35020 Legnaro, Italy
M. Zecca
Affiliation:
University of Padova, Dept. Inorganic Chemistry, via Marzolo 1, and Dept. Physical Chemistry, via Loredan 2, 135131 Padova, Italy
C. Corvaja
Affiliation:
University of Padova, Dept. Inorganic Chemistry, via Marzolo 1, and Dept. Physical Chemistry, via Loredan 2, 135131 Padova, Italy
G. Palma
Affiliation:
University of Padova, Dept. Inorganic Chemistry, via Marzolo 1, and Dept. Physical Chemistry, via Loredan 2, 135131 Padova, Italy
S. Lora
Affiliation:
C.N.R.,Centro Studio Stabilità e Reattività Composti Coordinazione, via Marzolo 1, I35131 Padova, Italy and Institute F.R.A.E., I35020 Legnaro, Italy
K. Jerabek
Affiliation:
Czechoslovak Academy of Science, Institute Chemical Processes Fundamentals, 165 02 Praha 6 - Suchdol, Czechoslovakia
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Abstract

A cross-linked copolymer of vinylferrocene and dimethyl-acrylamide is generated inside the less dense microporous domains of a cross-linked polydimethylacrylamide matrix. I.S.E.C. and E.S.R. data reveal that the obtained composite is in fact an I.P.N.(Interpenetrating Polymer Network) material.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 274: Symposium R – Submicron Multiphase Materials , 1992 , 103
Copyright
Copyright © Materials Research Society 1992

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References

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