Physical chemistry articles within Nature Communications

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  • Article |

    Colloids consist of small particles distributed in another medium such as liquids or gases. Here, the demonstration that forces arising from the critical Casimir effect can control the interaction between particles offers new possibilities for the formation of colloidal nanostructures.

    • Van Duc Nguyen
    • , Suzanne Faber
    •  & Peter Schall

  • Article |

    The hardness and incompressibility of diamond makes it an ideal material for high-pressure anvil cells. Here, a method for generating static pressure is described in which graphene-coated diamond is heated, forming graphene nanobubbles that trap water at pressures sufficient to etch the surface of diamond.

    • Candy Haley Yi Xuan Lim
    • , Anastassia Sorkin
    •  & Kian Ping Loh

  • Article |

    Charge carrier mobility in molecular condensate is usually limited to small values by disorder and small intermolecular coupling. This work shows band dispersion of molecular states when hybridized with a metal substrate, resulting in enhanced carrier mobility.

    • M. Wießner
    • , J. Ziroff
    •  & F. Reinert

  • Article |

    Materials with magnetic dipoles commonly form the building blocks of complex structures at many different length scales. Yan et al. show that by using cylindrical magnetic Janus colloids, greater control over the shape of the hierarchical structures formed by self-assembly can be achieved.

    • Jing Yan
    • , Kundan Chaudhary
    •  & Steve Granick

  • Article |

    Electricity can be generated by moving wires in magnetic fields, but this is not the only method. Moon et al. develop an electrochemical device that produces an AC current in a controlled manner by mechanically modulating water bridges sandwiched between two conducting plates.

    • Jong Kyun Moon
    • , Jaeki Jeong
    •  & Hyuk Kyu Pak

  • Article |

    The ‘on’ and ‘off’ states of the photoswitchable protein Dronpa have been characterized, but the interconversion process remains poorly understood. Here the authors perform time-resolved ultrafast infrared measurements to follow both the structural changes and proton transfer events that occur during conversion.

    • Mark M. Warren
    • , Marius Kaucikas
    •  & Jasper J. van Thor

  • Article
    | Open Access

    Binary mixtures of molecules on the surface of nanoparticles can arrange randomly or into different domains to form Janus, patchy or striped particles. Liuet al.show that NMR can be used to determine the ligand-shell morphology of particles coated with aliphatic and aromatic ligands.

    • Xiang Liu
    • , Miao Yu
    •  & Francesco Stellacci

  • Article |

    Orthogonal switching has been achieved in supramolecular systems, in which different responses can be triggered on demand by different stimuli. Tian et al.report host–guest heteroternary complexes with both redox- and light-responsive guests in a single, supramolecular entity.

    • Feng Tian
    • , Dezhi Jiao
    •  & Oren A. Scherman

  • Article
    | Open Access

    Granular matter is rigid when jammed, and flows under external loads. Here temperature- and force-unfolding molecular dynamics stimulations are used to demonstrate that proteins display features of jamming, characterized by a force distribution peak on folding and a slowdown of stress relaxation.

    • Prasanth P Jose
    •  & Ioan Andricioaei

  • Article |

    The charge-transfer characteristics of conjugated molecules are important in determining their electronic properties. Using resonant photoemission spectroscopy, Batraet al. quantify the through-space charge transfer in two model conjugated systems with femtosecond resolution.

    • Arunabh Batra
    • , Gregor Kladnik
    •  & Latha Venkataraman

  • Article
    | Open Access

    Patchy colloids are colloidal particles with chemically or physically patterned surfaces that result in complex interactions arising between them. By means of numerical simulations, Romano and Sciortino show that suitably tailored patches can induce the crystallization of patchy colloids into specific crystal structures.

    • Flavio Romano
    •  & Francesco Sciortino

  • Article |

    The crystallization of a racemate on a surface can lead to crystals with a unit cell containing both enantiomers, or to the separation of enantiomers into crystals of single-handedness. This study shows that manganese co-absorbed with a quinone derivative leads to achiral islands, while co-absorption with caesium gives chiral islands.

    • Nasiba Abdurakhmanova
    • , Andrea Floris
    •  & Klaus Kern

  • Article
    | Open Access

    Understanding hydrogen diffusion in metals is a challenge because of limited access to spatial evolution of the concentration profiles. Using time- and spatially resolved optical measurements, Palssonet al. determine the diffusion rate of hydrogen by directly monitoring its transit through a vanadium thin film.

    • Gunnar K. Pálsson
    • , Andreas Bliersbach
    •  & Björgvin Hjörvarsson

  • Article |

    Geometrically frustrated spin systems are a class of statistical mechanical models that have received widespread attention, especially in condensed matter physics. This study experimentally demonstrates a quantum information processor that can simulate the behaviour of such frustrated spin system.

    • Jingfu Zhang
    • , Man-Hong Yung
    •  & Jonathan Baugh

  • Article |

    Thed orbitals of transition metal compounds influence their crystallographic and physical properties. This study reports a unique structural transition in single crystals of the S=1/2 kagomé antiferromagnet, volborthite, whereby an unpaired electron 'switches' from one dorbital to another upon cooling.

    • Hiroyuki Yoshida
    • , Jun-ichi Yamaura
    •  & Zenji Hiroi

  • Article
    | Open Access

    Prenucleation clusters have been observed during the early stages of calcium carbonate formation, contrary to classical models. Here, computer simulations indicate that the clusters are composed of an ionic polymer with alternating calcium and carbonate ions, and a dynamic topology of chains, branches and rings.

    • Raffaella Demichelis
    • , Paolo Raiteri
    •  & Denis Gebauer

  • Article |

    Dissociation of ice into an ionic solid is rare due to the high energy cost of proton transfer. In this study, structure search simulation is used to predict the formation of a partially ionic phase in ice at low temperature and high pressure, which consists of coupled alternate layers of hydroxide and hydronium.

    • Yanchao Wang
    • , Hanyu Liu
    •  & Yanming Ma

  • Article
    | Open Access

    External electric fields have been used to control the motion of small objects through electrostatic repulsion. Here, electric fields are used to polarize conducting objects, triggering their movement by spatially separated electrochemical reactions leading to directionally controlled bubble evolution.

    • Gabriel Loget
    •  & Alexander Kuhn

  • Article |

    Advanced rechargeable lithium-ion batteries have potential applications in the renewable energy and sustainable road transport fields. Junget al. have developed a lithium battery that uses pre-existing concepts but has highly competitive energy densities, life span and cycling properties.

    • Hun-Gi Jung
    • , Min Woo Jang
    •  & Bruno Scrosati

  • Article |

    Graphene may be used in nanoscale electronics and devices, but the ability to synthesise uniform graphene with well-controlled layer numbers is necessary for these applications. Using a Ni–Mo alloy, this study demonstrates single-layer graphene growth with 100% surface coverage and tolerance to variations in growth conditions.

    • Boya Dai
    • , Lei Fu
    •  & Zhongfan Liu

  • Article |

    Intercalating alkali metals into picene—a hydrocarbon with five linearly fused benzene rings—results in superconducting materials. Now, alkali-metal-doped phenanthrene, which consists of three fused benzene rings, is also found to be superconducting, opening up a broader class of organic superconductors.

    • X.F. Wang
    • , R.H. Liu
    •  & X.H. Chen

  • Article
    | Open Access

    Spin ices are magnetic materials in which excitations equivalent to monopoles can occur. Using high-pressure techniques, Zhouet al. synthesize a new member of the spin ice family, Dy2Ge2O7, in which monopoles exist at higher densities, and can stabilize as dimers.

    • H.D. Zhou
    • , S.T. Bramwell
    •  & J.S. Gardner

  • Article
    | Open Access

    Transparent conducting oxides are wide bandgap conductors that have found a range of applications in optoelectronic devices. In this study, Hosono and colleagues fabricate the first transparent conducting oxide based on germanium.

    • Hiroshi Mizoguchi
    • , Toshio Kamiya
    •  & Hideo Hosono

  • Article |

    Property coupling by heteroepitaxy is severely limited in material combinations with highly dissimilar bonding. This report presents a chemical boundary condition methodology to actively engineer two-dimensional film growth in such systems that otherwise collapse into island formation and rough morphologies.

    • Elizabeth A. Paisley
    • , Mark. D. Losego
    •  & Jon-Paul Maria

  • Article |

    Multiple scattering complicates femtosecond optics such that phase conjugation allows spatial focusing and imaging through a multiple scattering medium, but temporal control is problematic. McCabeet al. report the full spatio-temporal characterization and recompression of a femtosecond speckle field.

    • David J. McCabe
    • , Ayhan Tajalli
    •  & Béatrice Chatel

  • Article
    | Open Access

    At extreme temperature and pressure, materials can form new dense phases with unusual physical properties. Here, laser-induced microexplosions are used to produce a superdense, stable, body-centred-cubic form of aluminium, which was previously predicted to exist at pressures above 380GPa.

    • Arturas Vailionis
    • , Eugene G. Gamaly
    •  & Saulius Juodkazis

  • Article
    | Open Access

    Being able to determine the wetting properties of individual nanoparticles would aid the preparation of particles with controlled surface properties. Isaet al. develop an in situ freeze-fracture shadow-casting method and use this to determine structural and thermodynamic properties of various 10 nm particles at fluid interfaces.

    • Lucio Isa
    • , Falk Lucas
    •  & Erik Reimhult

  • Article
    | Open Access

    Magnesium is an ideal rechargeable battery anode material, but coupling it with a low-cost sulphur cathode, requires a non-nucleophilic electrolyte. Kimet al. prepare a non-nucleophilic electrolyte from hexamethyldisilazide magnesium chloride and aluminium trichloride, and show its compatibility with a sulphur cathode.

    • Hee Soo Kim
    • , Timothy S. Arthur
    •  & John Muldoon

  • Article |

    Single-molecule magnets could be useful for the development of spintronic devices. Here single-molecule magnets are encapsulated in carbon nanotubes without affecting the properties of the guest molecules, which may be useful in the development of spintronic or high-density magnetic storage devices.

    • Maria del Carmen Giménez-López
    • , Fabrizio Moro
    •  & Andrei N. Khlobystov

  • Article |

    Covalent reactions on carbon nanotube surfaces typically occur at random positions on the hexagonal lattice. Denget al. show that Billups–Birch reductive alkylation takes place at, and propagates from, sp3defect sites, leading to confinement of the reaction fronts in the tubular direction.

    • Shunliu Deng
    • , Yin Zhang
    •  & YuHuang Wang

  • Article |

    Single nanoparticles are known to emit light intermittently, or 'blink', but the mechanisms describing this phenomenon are not fully understood. This study demonstrates that, for small clusters of blinking nanoparticles, the number of particles within a cluster dramatically influences blinking time.

    • Siying Wang
    • , Claudia Querner
    •  & Marija Drndic

  • Article
    | Open Access

    Negative thermal expansion—contraction upon heating—is an unusual process that may be exploited to produce materials with zero or other controlled thermal expansion values. Azumaet al. observe negative thermal expansion in BiNiO3which is a result of Bi/Ni charge-transfer transitions.

    • Masaki Azuma
    • , Wei-tin Chen
    •  & J. Paul Attfield

  • Article
    | Open Access

    The conductance of single-molecule junctions is affected by the structure of the molecule and how it is bound to the electrodes, which may be examined using Raman spectroscopy. Liuet al. have developed 'fishing-mode' tip-enhanced Raman spectroscopy, which allows the simultaneous determination of conductance and Raman spectra.

    • Zheng Liu
    • , Song-Yuan Ding
    •  & Zhong-Qun Tian

  • Article |

    Little is known about the effects of molecular crowding and confinement on biomolecule function. Castronovoet al. investigate the reactions of restriction enzymes with DNA confined in bushy matrices and find that the enzymes enter at the side of the matrix before diffusing two-dimensionally.

    • Matteo Castronovo
    • , Agnese Lucesoli
    •  & Giacinto Scoles

  • Article
    | Open Access

    Temperature-controlled regulation of thermal conductivity is difficult to achieve because thermal properties do not change significantly through solid-state phase transitions. Here temperature control of thermal conductivities is demonstrated using liquid–solid phase transitions in a nanoparticle suspension.

    • Ruiting Zheng
    • , Jinwei Gao
    •  & Gang Chen

  • Article |

    Melting-related phenomena are of fundamental and applied interest, but the melting theory is poorly understood. Levitas and Samani develop an advanced phase-field theory of melting coupled to mechanics that resolves existing contradictions and reveals the features of melting phenomena.

    • Valery I Levitas
    •  & Kamran Samani

  • Article
    | Open Access

    In the pseudogap state of cuprates, although diamagnetic signals have been detected, a Meissner effect has never been observed. Morenzoni and colleagues probe the local diamagnetic response in the normal state of an underdoped layer showing that a 'barrier' layer exhibits a Meissner effect.

    • Elvezio Morenzoni
    • , Bastian M. Wojek
    •  & Ivan Božović

  • Article
    | Open Access

    Observing superposition states of mesoscopic quantum systems is an ongoing challenge. Gerlichet al. report quantum interference of large tailor-made organic compounds, demonstrating delocalization and the quantum wave nature of entire molecules composed of up to 430 atoms.

    • Stefan Gerlich
    • , Sandra Eibenberger
    •  & Markus Arndt

  • Article |

    Monitoring the impact of annealing on nanometre-thick polymer layers provides new insight into the changes in the performance of macromolecular materials. Here, the authors present results showing a correlation between the deviations from bulk behaviour and the growth of an irreversibly adsorbed layer.

    • Simone Napolitano
    •  & Michael Wübbenhorst

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