Copyright © 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Editor: Michael Rowan; Editorial Board Chairs: Uwe Bornscheuer, Luis A. Oro, Bert Weckhuysen
Impact Factor: 5.044
ISI Journal Citation Reports © Ranking: 2013: 26/136 (Chemistry Physical)
Online ISSN: 1867-3899
February 01, 2014
New Online Manuscript Submission System
We are pleased to announce that after over ten years, manuscriptXpress was replaced by a new Manuscript handling system, EditorialManager from ARIES, on February 1.
The links to the new journal sites are available at: chemistryviews.org/submission.
Articles that have been submitted to manuscriptXpress will be processed from there.
Thank you for your patience and we look forward to receiving your next excellent manuscript.
Recently Published Articles
- Asymmetric Hydrocyanation of Nitroolefins Catalyzed by an Aluminum(III) Salen Complex
Ajay Jakhar, Arghya Sadhukhan, Dr. Noor-ul H. Khan, S. Saravanan, Dr. Rukhsana I. Kureshy, Dr. Sayed H. R. Abdi and Dr. Hari C. Bajaj
Article first published online: 1 AUG 2014 | DOI: 10.1002/cctc.201402373
It′ll be [Al]right on the night: Chiral aluminum(III) salen complexes are synthesized and used as catalysts for the asymmetric hydrocyanation of nitroolefins using 4-phenylpyridine N-oxide as an additive and trimethylsilyl cyanide as a source of cyanide. An excellent yield of β-nitronitrile (87 %) and enantioselectivity (90 %) are achieved if (2-nitrovinyl)cyclohexane is used as a substrate at −15 °C in 16 h.
- Catalytic Oxidative Carbonylation over Cu2O Nanoclusters Supported on Carbon Materials: The Role of the Carbon Support
Bing Yan, Dr. Shouying Huang, Dr. Shengping Wang and Prof. Dr. Xinbin Ma
Article first published online: 1 AUG 2014 | DOI: 10.1002/cctc.201402201
Synergy at the surface: A chlorine-free Cu2O/activated carbon catalyst with high efficiency is prepared and used for oxidative carbonylation of methanol. The amount of surface oxygen-containing groups (OCGs) on the carbon surface relative to the effective Cu loading plays a key role in the reaction. Cu2O that coordinates to the surface OCGs on carbon support is the active center.
- Ionic Liquid and Sulfonic Acid Based Bifunctional Periodic Mesoporous Organosilica (BPMO–IL–SO3H) as a Highly Efficient and Reusable Nanocatalyst for the Biginelli Reaction
Dr. Dawood Elhamifar, Dr. Masoud Nasr-Esfahani, Prof. Dr. Babak Karimi, Ramin Moshkelgosha and Ahmad Shábani
Article first published online: 30 JUL 2014 | DOI: 10.1002/cctc.201402162
With ionic liquids, but not leaky: The catalytic application of a novel ionic liquid and sulfonic acid based bifunctional periodic mesoporous organosilica (BPMO–IL–SO3H) in the one-pot Biginelli reaction was developed. The catalyst exhibited high reactivity for the Biginelli condensation of a number of aromatic aldehydes with urea and alkylacetoacetates. It can be successfully recovered and reused several times without any significant decrease in efficiency.
- Heteropoly Acid/Carbon Nanotube Hybrid Materials as Efficient Solid-Acid Catalysts
Dr. Wei Qi, Wei Liu, Songyun Liu, Dr. Bingsen Zhang, Xianmo Gu, Xiaoling Guo and Prof. Dangsheng Su
Article first published online: 30 JUL 2014 | DOI: 10.1002/cctc.201402270
Heterogeneous beats homogeneous: A prototype supported solid-acid material composed of heteropoly acid and nitrogen-functionalized carbon nanotubes exhibits a high catalytic activity in hydrolysis, rearrangement, and alkylation reactions and can be regenerated easily. This method is a promising way to fabricate functional materials with acidic or redox properties.
- Catalytic Deoxygenation of Fatty Acids: Elucidation of the Inhibition Process
Stefan A. W. Hollak, Prof. Dr. Ir. Krijn P. de Jong and Dr. Daan S. van Es
Article first published online: 30 JUL 2014 | DOI: 10.1002/cctc.201402290
Olefins cause fatal attraction: Catalytic deoxygenation of unsaturated fatty acids suffers from significant catalyst deactivation in the absence of H2. As demonstrated herein, no correlation exists between the nature of the support material and catalyst inhibition. Instead, strong adsorption of unsaturated molecules with the CC double bond on the palladium causes catalyst inhibition. The inhibition was shown to be reversible in H2.