1864-564X/asset/olbannerleft.gif?v=1&s=fc58be2772ff226734ef9ecf997ece0903885c67)
1864-564X/asset/olbannercenter.gif?v=1&s=da1d79329c83d74f32e7f59c9ec1b60f04484201)
1864-564X/asset/olbannerright.gif?v=1&s=5014c732b7ee11feab4c51d9cb84f12b575c99ce)
ChemSusChem
Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Editor: Guido Kemeling
Impact Factor: 6.325
ISI Journal Citation Reports © Ranking: 2010: 15/144 (Chemistry Multidisciplinary)
Online ISSN: 1864-564X
Associated Title(s): Angewandte Chemie International Edition, Chemistry - A European Journal, ChemCatChem, ChemPhysChem
Recently Published Issues
Current Issue:January 9, 2012
Volume 5, Issue 1
Special Issue: Green Nanocatalysis
Volume 4, Issue 12
Volume 4, Issue 11
Volume 4, Issue 10
Special Issue: Energy Materials
Volume 4, Issue 9
Special Issue: Carbon Dioxide Recycling
Tag Cloud
Click on a keyword to find the latest articles that have it. Click "Edit Search" on the results page to refine or expand the query. Click "Save Search" to add the query to your profile and be alerted to new articles that match it.
biofuels · biomass · carbohydrates · carbon · catalysis · cellulose · colloids · electrochemistry · energy conversion · fuel cells · green chemistry · heterogeneous catalysis · homogeneous catalysis · hydrogen · hydrolysis · ionic liquids · iron · lithium · nanoparticles · nanostructures · nanotubes · oxidation · palladium · polymers · renewable resources · ruthenium · semiconductors · supported catalysts · surface chemistry · sustainable chemistry
Recently Published Articles
- Development of New Hydrogenations of Imines and Benign Reductive Hydroaminations: Zinc Triflate as a Catalyst
Svenja Werkmeister, Steffen Fleischer, Dr. Shaolin Zhou, Dr. Kathrin Junge and Prof. Matthias Beller
Article first published online: 9 FEB 2012 | DOI: 10.1002/cssc.201100633
It’s a triflate with zinc: The hydrogenation of imines and the reductive hydro- amination of alkynes with hydrogen and amines have been achieved by applying zinc triflate as a catalyst. This methodology is a convenient alternative to the use of precious metal-based catalysts and expensive silanes and Hantzsch ester dihydropyridines.
- Water Oxidation by Electrodeposited Cobalt Oxides—Role of Anions and Redox-Inert Cations in Structure and Function of the Amorphous Catalyst
Marcel Risch, Katharina Klingan, Franziska Ringleb, Dr. Petko Chernev, Dr. Ivelina Zaharieva, Dr. Anna Fischer and Prof. Dr. Holger Dau
Article first published online: 9 FEB 2012 | DOI: 10.1002/cssc.201100574
Cobalt crowds crack it up: The catalytic activity of a cobalt-oxido film for water oxidation may be inversely proportional to atomic order, determined by the size of contiguous CoxOy clusters in the amorphous material. The redox-inert cations and anions in CoCat modulate redox properties and catalytic activity without modifying the basic structural motif of Co-oxido clusters.
- Modification of n-Type Organic Semiconductor Performance of Perylene Diimides by Substitution in Different Positions: Two-Dimensional π-Stacking and Hydrogen Bonding
Ming-Xing Zhang and Dr. Guang-Jiu Zhao
Article first published online: 9 FEB 2012 | DOI: 10.1002/cssc.201100510
Let’s twist the fork: Perylene diimides (PDIs) and its derivatives are active n-type semiconducting materials widely used in organic electronic devices. This work elucidates different influences on electron-transfer mobility by substitution of PDIs in three different positions (bay-, ortho- and imide-positions) with chlorine. A fork-like structure is reported to be responsible for the large electron mobility of octachloro-PDIs with a twisted system.
A Journal of ChemPubSoc Europe, Supported by ACES
1864-564X/asset/chempubsoc-eu.gif?v=1&s=045d0e7929aa8b9717b44147ebd64ef84e0e916e)