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Nature Catalysis covers all areas of catalysis, incorporating the work of scientists, engineers and industry. November issue now live.

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Latest Research

  • Review Article |

    Supramolecular hosts can readily self-assemble from simple components and allow remarkable chemical rate enhancements and product selectivity utilising defined microenvironments and specific host–guest interactions. This Review Article describes recent conceptual and catalytic advances made in this field.

    • Mariko Morimoto
    • , Stephen M. Bierschenk
    • , Kay T. Xia
    • , Robert G. Bergman
    • , Kenneth N. Raymond
    •  & F. Dean Toste
  • Article |

    Despite their promising optical properties, organolead halide perovskites are not frequently used in photocatalysis due to their low stability in water. Here, a long-lasting semiconductive organolead iodide layered crystalline material with the ability to perform overall water splitting is introduced.

    • Xueling Song
    • , Guangfeng Wei
    • , Jiao Sun
    • , Chengdong Peng
    • , Jinlin Yin
    • , Xu Zhang
    • , Yilin Jiang
    •  & Honghan Fei
  • Article |

    Controlling the regioselectivity in the coupling of simple aromatics is challenging. Now, parapara selectivity is achieved during the aerobic dehydrogenative homocoupling of arenes through a shape-selective catalyst based on molecular palladium confined within the framework of zeolite materials.

    • Jannick Vercammen
    • , Massimo Bocus
    • , Sam Neale
    • , Aram Bugaev
    • , Patrick Tomkins
    • , Julianna Hajek
    • , Sam Van Minnebruggen
    • , Alexander Soldatov
    • , Andraž Krajnc
    • , Gregor Mali
    • , Véronique Van Speybroeck
    •  & Dirk E. De Vos
  • Review Article |

    Organochlorides are attractive building blocks for photocatalytic synthesis that have been receiving increasing attention lately, thanks to recent methodological advances that overcome their inertness. In this Review Article, Giedyk and colleagues summarise the developments and strategies for their photocatalytic activation.

    • Martyna Cybularczyk-Cecotka
    • , Joanna Szczepanik
    •  & Maciej Giedyk
  • Article |

    Extensive research efforts in systems chemistry are directed to the development of in vitro systems that mimic complex natural networks. Now, stimuli-responsive nucleic acid-based networks conjugated to biocatalysts for the triggered and orthogonal control over biocatalytic cascades are reported.

    • Chen Wang
    • , Liang Yue
    •  & Itamar Willner
  • Article |

    Domino asymmetric electrophilic halocyclization is useful for the synthesis of polycyclic pharmaceutical compounds, but remains limited to the generation of fused rings. Now, the scope is extended to complex spirocycle products by a catalytic protocol involving an electron-rich thiourea catalyst.

    • Tianyu Zheng
    • , Xinyan Wang
    • , Wing-Hin Ng
    • , Ying-Lung Steve Tse
    •  & Ying-Yeung Yeung

News & Comment

  • News & Views |

    Nickel–iron and cobalt–iron (oxy)hydroxides are state-of-the-art electrocatalysts for oxygen production in alkaline conditions. Now, the addition of high-valent dopants has been demonstrated to further propel the catalytic rate in these materials by an order of magnitude.

    • Michael John Craig
    •  & Max García-Melchor
  • Comment |

    The Fischer–Tropsch product, water, is regularly hypothesized to be the driving force for catalyst deactivation. Cobalt nanoparticles may be oxidized to CoO, form mixed-metal oxides with supports, or sinter to larger particles. This Comment discusses the feasibility of these deactivation pathways, highlighting the importance of in situ characterization.

    • Moritz Wolf
    • , Nico Fischer
    •  & Michael Claeys
  • News & Views |

    DNA-based dynamic networks show adaptation to external stimuli toward the generation of the fittest constituent. This selection principle has now been implemented to control the catalytic efficiency of an enzymatic reaction.

    • Lena J. Winat
    •  & Barbara Saccà
  • News & Views |

    Enhancing the oxygen exchange rate at the surface of oxides through rational design has long been a key goal of researchers pursuing sustainable energy solutions. Now, a simple infiltration method reveals that reaction rates on porous mixed-conducting oxides scale with the acidity of the infiltrate and can be tuned by orders of magnitude.

    • Sossina M. Haile

About the Journal

  • Nature Catalysis brings together researchers from across all chemistry and related fields. It publishes work on homogeneous catalysis, heterogeneous catalysis and biocatalysts, incorporating both fundamental and applied studies. Nature Catalysis provides coverage of the science and business of catalysis research, creating a unique journal for scientists, engineers and researchers in industry.

  • Nature Catalysis publishes original research as Articles. We also publish a range of other content types including Reviews, Perspectives, Comments, Correspondences, News & Views and Feature articles.

  • The Chief Editor of Nature Catalysis is Davide Esposito; other editors are Marçal Capdevila-Cortada (senior), Jan-Stefan Völler (senior) and Benjamin Martindale (associate).

  • Contact information for editorial staff, submissions, the press office, institutional access and advertising at Nature Catalysis