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Graphical Abstract: ChemPlusChem 7/2014

Graphical Abstract: ChemPlusChem 7/2014 wileyonlinelibrary.com Most of the articles in this issue have already appeared online on wileyonlinelibrary.com. See http://www.chempluschem.org under EarlyView COVER PICTURE The cover picture shows the catalytic effect of reduced graphene oxide for radical oxidative polymerization of 1-naphthylamine. The concentrated monomers are absorbed on the reduced graphene oxide surface through “p–p” interaction, and then, owing to its high electron density, reduced graphene oxide not only donates electrons to monomers to shorten the formation time of diimine, but also stabilizes the cationic intermediates to facilitate the propagation of polymer. Details of this study are given in the Full Paper on page 929 by L. Tan, H.-F. Feng, and co-workers. COVER PROFILE “The properties of various organic–inorganic hybrids we synthesize are explored in search of novel electronic, optical, and biological applications.” This and more about the story behind the cover in the Cover Profile and about the research itself on page 929. L. Tan,* Y.-C. Zhang, B. Wang, H.-M. Luo, H.-X. Feng* 880 Reduced Graphene Oxide as a MetalFree Carbocatalyst for Polymerization of 1-Naphthylamine  2014 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim ChemPlusChem 14, 79, 881 – 887 CHEMPLUSCHEM CONTENTS www.chempluschem.org NEWS Spotlights on our sister journals 888 – 891 http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png ChemPlusChem Wiley

Graphical Abstract: ChemPlusChem 7/2014

ChemPlusChem , Volume 79 (7) – Jul 1, 2014
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Publisher
Wiley
Copyright
"Copyright © 2014 Wiley Subscription Services, Inc., A Wiley Company"
eISSN
2192-6506
DOI
10.1002/cplu.201490019
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Abstract

wileyonlinelibrary.com Most of the articles in this issue have already appeared online on wileyonlinelibrary.com. See http://www.chempluschem.org under EarlyView COVER PICTURE The cover picture shows the catalytic effect of reduced graphene oxide for radical oxidative polymerization of 1-naphthylamine. The concentrated monomers are absorbed on the reduced graphene oxide surface through “p–p” interaction, and then, owing to its high electron density, reduced graphene oxide not only donates electrons to monomers to shorten the formation time of diimine, but also stabilizes the cationic intermediates to facilitate the propagation of polymer. Details of this study are given in the Full Paper on page 929 by L. Tan, H.-F. Feng, and co-workers. COVER PROFILE “The properties of various organic–inorganic hybrids we synthesize are explored in search of novel electronic, optical, and biological applications.” This and more about the story behind the cover in the Cover Profile and about the research itself on page 929. L. Tan,* Y.-C. Zhang, B. Wang, H.-M. Luo, H.-X. Feng* 880 Reduced Graphene Oxide as a MetalFree Carbocatalyst for Polymerization of 1-Naphthylamine  2014 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim ChemPlusChem 14, 79, 881 – 887 CHEMPLUSCHEM CONTENTS www.chempluschem.org NEWS Spotlights on our sister journals 888 – 891

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ChemPlusChemWiley

Published: Jul 1, 2014

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