ChemSusChem

Cover image for Vol. 9 Issue 18

Editor-in-Chief: Guido Kemeling; Editorial Board Chairs: Matthias Beller, Gabriele Centi, Licheng Sun

Impact Factor: 7.116

ISI Journal Citation Reports © Ranking: 2015: 20/163 (Chemistry Multidisciplinary)

Online ISSN: 1864-564X

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

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September 24, 2016

VIP: Beneficial Role of Reduced Graphene Oxide for Electron Extraction in Highly Efficient Perovskite Solar Cells

Kyung Taek Cho, Dr. Giulia Grancini, Dr. Yonghui Lee, Dimitrios Konios, Dr. Sanghyun Paek, Prof. Emmanuel Kymakis and Prof. Mohammad Khaja Nazeeruddin

Beneficial Role of Reduced Graphene Oxide for Electron Extraction in Highly Efficient Perovskite Solar Cells

rGO for efficiency! The effect of incorporating reduced graphene oxide (rGO) within the electron-transport, active, and hole-transport layers of a perovskite solar cell is investigated. Incorporation of rGO into the mesoporous TiO2 matrix results in highly efficient solar cells with power conversion efficiency of up to 19.54 %.

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Recently Published Articles

  1. Surface-Functionalized Electrospun Titania Nanofibers for the Scavenging and Recycling of Precious Metal Ions

    Dr. Yunqian Dai, Dr. Eric Formo, Haoxuan Li, Dr. Jiajia Xue and Prof. Younan Xia

    Version of Record online: 23 SEP 2016 | DOI: 10.1002/cssc.201600787

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    Must have the precious: Precious metals are widely used as catalysts in industry. It is of critical importance to keep the precious metal ions leached from catalysts at a level below one part per million (ppm) in final products and to recycle the expensive metals. Precious metal ions were scavenged by surface-functionalized electrospun TiO2 nanofibers and further recycled for use as catalysts. This system can be potentially applied in pharmaceutical industry.

  2. Beneficial Role of Reduced Graphene Oxide for Electron Extraction in Highly Efficient Perovskite Solar Cells

    Kyung Taek Cho, Dr. Giulia Grancini, Dr. Yonghui Lee, Dimitrios Konios, Dr. Sanghyun Paek, Prof. Emmanuel Kymakis and Prof. Mohammad Khaja Nazeeruddin

    Version of Record online: 22 SEP 2016 | DOI: 10.1002/cssc.201601070

    Thumbnail image of graphical abstract

    rGO for efficiency! The effect of incorporating reduced graphene oxide (rGO) within the electron-transport, active, and hole-transport layers of a perovskite solar cell is investigated. Incorporation of rGO into the mesoporous TiO2 matrix results in highly efficient solar cells with power conversion efficiency of up to 19.54 %.

  3. Solubility of Organosolv Lignin in γ-Valerolactone/Water Binary Mixtures

    Huy Quang Lê, Dr. Anna Zaitseva, Dr. Juha-Pekka Pokki, Marina Ståhl, Prof. Ville Alopaeus and Prof. Herbert Sixta

    Version of Record online: 22 SEP 2016 | DOI: 10.1002/cssc.201600655

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    Green lignin solvent! A γ-valerolactone/water binary mixture was found to effectively solubilize lignin, which can be applied in the development of a novel and sustainable biomass fractionation processes.

  4. Water Oxidation by Size-Selected Co27 Clusters Supported on Fe2O3

    Dr. Michael J. Pellin, Dr. Shannon C. Riha, Dr. Eric C. Tyo, Dr. Gihan Kwon, Dr. Joseph A. Libera, Dr. Jeffrey W. Elam, Dr. Soenke. Seifert, Dr. Sungsik Lee and Dr. Stefan Vajda

    Version of Record online: 22 SEP 2016 | DOI: 10.1002/cssc.201600982

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    Cluster convoy: Co27 clusters deposited at very low surface coverage on Fe2O3 nanolaminate anodes are found to be significantly more active as a water oxidation catalyst in alkaline media compared with Fe2O3 alone. Based on the observed high photochemical activity of the annealed Co27 sample, it is hypothesized that the improvement in the annealed cluster sample may be a result of improved charge transfer between the film and the cluster moiety.

  5. Disclosing the High Activity of Ceramic Metallics in the Oxygen Evolution Reaction: Nickel Materials as a Case Study

    Marc Ledendecker, Dr. Xiaofei Yang, Prof. Dr. Markus Antonietti and Dr. Menny Shalom

    Version of Record online: 21 SEP 2016 | DOI: 10.1002/cssc.201601128

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    It′s not Ni that glitters: The activity origin of ceramic metallics—ranging from nitrides, sulfides, and phosphides—towards the oxygen evolution reaction (OER) is elucidated. A higher amount of metal (oxy)hydroxides can be formed, which acts as the real electrocatalyst for the OER.

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