Volume 11 Issue 1, January 2019

Volume 11 Issue 1

The top table

The United Nations has proclaimed 2019 to be the International Year of the Periodic Table of Chemical Elements, to coincide with the 150th anniversary of the formulation of this iconic chart. Dmitri Mendeleev is widely credited as the main architect of what has now become the modern periodic table, which has evolved significantly since its inception in 1869. Nevertheless, it represents the collective work of the many scientists who have worked on better understanding the structure and behaviour of a growing number of elements, and on classifying them accordingly. We celebrate the periodic system in this issue with a collection of articles that explore elements of the table.

See Focus

Cover Design: Tulsi Voralia.


  • Editorial |

    The United Nations has declared 2019 to be the International Year of the Periodic Table to coincide with this iconic chemical chart turning 150 years old. We join in with the celebrations by publishing a collection of articles that explore the edges of the periodic system and look at some of the elements that do — and don’t — make up the table.


News & Views

  • News & Views |

    The structural features and catalytic performances of catalyst particles have now been correlated using a fluorescence microscopy approach, by tracking nanoprobes as well as fluorescent reaction products. Such mapping enables exploration of structure–function relationships, which is essential for the design of better catalysts.

    • Wei Wang
  • News & Views |

    One goal of synthetic biologists is to develop artificial systems to help study biological processes. Now, cell communication and differentiation have been demonstrated using spatiotemporal patterns created in artificial multicellular compartments.

    • Yi Li
    •  & Rebecca Schulman
  • News & Views |

    Gold nanomaterials are attractive for a variety of applications, including in medicine, but need to be made stable enough to operate in biological systems. Now, gold nanorods have been stabilized for photothermal therapy by sequential surface anchoring, using a bidendate PEG-based ligand that features a thiolate moiety and an Au–NHC moiety.

    • Guillaume Médard
    •  & Anthoula C. Papageorgiou


  • Article |

    The accessibility of materials’ porous domains is typically explored through bulk, and often non-visual, measurements. Now, an integrated fluorescence microscopy approach has established a direct visual relationship between pore architecture (which depends on pore sizes and interconnectivity), molecular transport, and in turn catalytic performance in industrial-grade catalyst particles.

    • Gareth T. Whiting
    • , Nikolaos Nikolopoulos
    •  & Bert M. Weckhuysen
  • Article |

    Synthetic gene circuits encapsulated in lipid membrane compartments are often employed as artificial cell mimics, but these lack the complex behaviour of biological tissues. Now, spatial information based on chemical gradients has been used to engineer non-trivial dynamics such as signal propagation and differentiation in an artificial multicellular system.

    • Aurore Dupin
    •  & Friedrich C. Simmel
  • Article |

    Establishing a fundamental understanding of the electronic structure of actinides remains a challenging task for both experiment and theory. Now, it is shown that for the uranium dimer, relativity and electron correlation affects not only the nature of the electronic ground state, but also lowers the bond multiplicity in comparison to previous studies.

    • Stefan Knecht
    • , Hans Jørgen Aa. Jensen
    •  & Trond Saue
  • Article |

    Catalytic activation of non-polar unstrained C−C bonds remains challenging. Now, the C(aryl)−C(aryl) bonds in 2,2′-biphenols can be cleaved using phosphinites as a recyclable directing group through a rhodium-based spirocyclic intermediate. In particular, the biaryl linkage found in softwood lignin could be cleaved using this method.

    • Jun Zhu
    • , Jianchun Wang
    •  & Guangbin Dong
  • Article |

    Synthetic receptors can be used to help understand biological systems, but rarely compete in terms of affinity or selectivity. Now, a glucose-binding compound has been prepared that, despite its symmetry and simplicity, can match all but the strongest glucose-binding proteins. The high binding affinity and outstanding selectivity of this receptor may translate into biomedical applications.

    • Robert A. Tromans
    • , Tom S. Carter
    •  & Anthony P. Davis
  • Article |

    N-heterocyclic carbenes (NHCs) are valuable surface anchors, but their use has remained limited to either spherical or planar nanomaterials. Now, they have been grafted onto gold nanorods through a bidentate ligand featuring a thiolate and a NHC–gold complex. The resulting nanorods are robust towards a wide range of harsh conditions and show promise for photothermal therapy.

    • Michelle J. MacLeod
    • , Aaron J. Goodman
    •  & Jeremiah A. Johnson
  • Article |

    The use of Li or Na as electrodes in Li-Na alloy–O2 batteries creates formidable challenges for both safety and stability because of their oxidative corrosion and the growth of dendrites and cracks on their surface. Now, an aprotic bimetal Li-Na alloy–O2 battery with high cycling stability has been developed using a Li-Na eutectic alloy anode and an electrolyte additive.

    • Jin-ling Ma
    • , Fan-lu Meng
    •  & Qing Jiang
  • Article |

    Limitations associated with the primary amination of aryl C–H bonds include the poor control of regioselectivity with electron-rich substrates and the challenging nature of the reaction in the case of electron-deficient arenes. Now, site-directed C–C bond primary amination of simple alkylarenes and benzyl alcohols provides a route for the direct and efficient preparation of anilines.

    • Jianzhong Liu
    • , Xu Qiu
    •  & Ning Jiao
  • Article |

    The preparation of conjugates between proteins and small molecules is often challenging and requires several synthetic steps to functionalize each component for conjugation. Now, a conjugation methodology that leverages an electrophilic Se–S bond of selenocysteine to create bioconjugates between polypeptides and complex small molecules has been described.

    • Daniel T. Cohen
    • , Chi Zhang
    •  & Bradley L. Pentelute
  • Article |

    Heteromultivalency, which involves the simultaneous interactions of more than one type of ligand with more than one type of receptor, is common in biological systems but challenging to engineer artificially. Now, a heteromultivalent platform prepared by co-assembling cyclodextrin and calixarene amphiphiles has shown self-adaptive peptide binding with high affinity. The platform was used to sequester amyloid β-peptides, reducing amyloid cytotoxicity.

    • Zhe Xu
    • , Shaorui Jia
    •  & Dong-Sheng Guo

Amendments & Corrections

In Your Element


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