ChemSusChem

Cover image for Vol. 6 Issue 6

Editor-in-Chief: Guido Kemeling

Impact Factor: 6.827

ISI Journal Citation Reports © Ranking: 2011: 15/154 (Chemistry Multidisciplinary)

Online ISSN: 1864-564X

Associated Title(s): Angewandte Chemie International Edition, Chemistry - A European Journal, ChemCatChem, ChemElectroChem, ChemPhysChem, Energy Technology

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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

  1. Towards High Conductivity in Anion-Exchange Membranes for Alkaline Fuel Cells

    Dr. Nanwen Li, Dr. Michael D. Guiver and Prof. Wolfgang H. Binder

    Article first published online: 18 JUN 2013 | DOI: 10.1002/cssc.201300320

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    Make it snappy: Clicked 1,2,3-triazoles incorporated into anion-exchange membranes (AEMs) provide more sites to form efficient continuous hydrogen-bond networks for anion transport. Such molecular structures show a dramatic enhancement in anion conductivity compared to typical AEMs without triazole groups.

  2. Highly Active and Recyclable Sn-MWW Zeolite Catalyst for Sugar Conversion to Methyl Lactate and Lactic Acid

    Qiang Guo, Dr. Fengtao Fan, Dr. Evgeny A. Pidko, William N. P. van der Graaff, Prof. Dr. Zhaochi Feng, Prof. Dr. Can Li and Prof. Dr. Emiel J. M. Hensen

    Article first published online: 17 JUN 2013 | DOI: 10.1002/cssc.201300160

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    Not just sugar! Lewis-acidic Sn-MWW zeolites are obtained through postsynthesis functionalization of deboronated B-MWW with Sn. These materials are highly active, selective, and recyclable catalysts for the conversion of triose sugars to methyl lactate (in methanol) and lactic acid (in water). They also demonstrate good performance in the conversion of hexose sugars and sucrose to methyl lactate.

  3. Self-Biasing Photoelectrochemical Cell for Spontaneous Overall Water Splitting under Visible-Light Illumination

    Dr. Quanpeng Chen, Dr. Jinhua Li, Dr. Xuejin Li, Dr. Ke Huang, Prof. Dr. Baoxue Zhou and Prof. Wenfeng Shangguan

    Article first published online: 17 JUN 2013 | DOI: 10.1002/cssc.201200936

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    WO3/W—wow! A self-biasing photoelectrochemical cell based on a Pt-catalyst-decorated crystalline silicon photovoltaic cell photocathode and WO3/W photoanode that can be self-driven for overall water splitting under visible-light illumination is described.

  4. A Sustainable Process for Catalytic Oxidative Bromination with Molecular Oxygen

    Zhijun Huang, Dr. Fengbo Li, Bingfeng Chen , Tao Lu , Yin Yuan  and Prof. Guoqing Yuan

    Article first published online: 14 JUN 2013 | DOI: 10.1002/cssc.201300289

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    Workin′ in a bromine: A palladium–polyoxometalate amphiphilic hybrid material serves as catalyst for oxidative brominations. The emulsion-based process avoids the use of toxic and corrosive bromination agents such as Br2 or HBr, and uses molecular oxygen as oxidant. The only side product is water, which is also the reaction medium. The catalyst offers good recoverability and recyclability.

  5. Degradation of Cyanoacrylic Acid-Based Organic Sensitizers in Dye-Sensitized Solar Cells

    Dr. Cheng Chen, Prof. Xichuan Yang, Dr. Ming Cheng, Dr. Fuguo Zhang and Prof. Licheng Sun

    Article first published online: 14 JUN 2013 | DOI: 10.1002/cssc.201200949

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    Dye-ing to degrade: The degradation mechanism of cyanoacrylic acid-based organic sensitizers in dye-sensitized solar cells (DSSCs) has been studied. With the synergy of water and UV light, the sensitizer desorbs from the TiO2 surface and the cyanoacrylic acid unit of sensitizer is converted into an aldehyde group. It is also observed that the oxygen atom of the aldehyde comes from the solvent water in DSSCs.

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