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Vertically assembled graphene devices have received less attention than the typical two dimensional arrangements. Chen et al. show that an Au/graphene/Au assembly exhibits a large magnetoresistance ratio of up to 400%, while a Co/graphene/Co device displays a spin valve effect at room temperature.
The realization of molecular monolayers with graphene electrodes may allow for superior flexible, transparent and stable electronics. Here, a photo-switchable molecular monolayer device is demonstrated, which has one side physically attached, and the other chemically bonded, to graphene.
Schwan cells ensheath and insulate axons, enabling efficient transmission of action potentials. Ness and colleagues study the role of the kinase Lck in Schwan cells, and find that Lck signalling regulates cell migration, axonal sorting and myelin thickness.
Interferometric techniques can provide valuable contact and profile information of microscopic objects on surfaces. This work uses reflection interference contrast microscopy to directly observe contact phenomena and presents novel analytical methods offering high-accuracy nanoscale resolution.
Cation ordering in cubic-structured oxides can strongly affect magnetic properties. Here, the authors show that in some natural titanomagnetites, large and reversible changes in Curie temperature result from annealing at moderate temperatures (350–400 °C), most likely arising from changes in cation ordering.
Membranes for molecular-level sieving based on processable, permeable polymers are desirable for industrial processes. Here, the authors report the photo-oxidative surface modification of these membranes, which results in asymmetric materials with high selectivity and permeability for gas separations.
Liquid crystallinity at interfaces is less understood than in bulk. Jordens et al. investigate the interfacial isotropic–nematic phase transition of semiflexible fibrils and identify how, depending upon its bulk properties, two-dimensional ordering may be a non-equilibrium process.
The Wnt/β-catenin pathway has important roles during neurogenesis in bilaterian animals. The authors show that this pathway regulates the transition from proliferating neural progenitors to differentiating neurons in the annelid Platynereis dumerilii, suggesting a conserved role in the last common bilaterian ancestor.
Anthracycline-based drugs can kill cancer cells by inhibiting topoisomerase II and promoting DNA double-strand breaks. Pang et al. show that anthracyclines also induce eviction of histones from open chromatin regions and, in doing so, modulate DNA repair and apoptosis in human cancer cells.
Caenorhabditis elegans studies using artificial stimulation suggest that synaptic transmission involves graded action potential generation. Liu et al. study synaptic transmission that occurs spontaneously and find that cholinergic postsynaptic currents occur in bursts to facilitate action potential firing.
Noble metallic subnanometre clusters exhibit superior catalytic activities, but their stability remains a problem. Zhang et al. report that single niobium atoms can be stabilized in graphitic layers and the resulting carbide complex exhibits higher activity compared with commercial platinum nanoclusters.
Detailed analysis of an animal’s posture and gait can provide a rich resource for behavioural studies. Kain et al. apply the technology of real-time motion capture to Drosophila, allowing automatic classification of the behaviours of flies spontaneously roaming on a tracker ball.
Androgen receptor signalling plays an important role in driving prostate cancer progression. Here the authors design a peptidomimetic that blocks the interaction between the androgen receptor and its coactivator PELP1, and show that the drug slows prostate cancer cell growth in a xenograft model.
The NF-κB complex is a core regulator of inflammatory gene expression and activates transcription of many different target genes. Fu et al. show that NF-κB promoter specificity can be tuned by Sam68, which is required for targeting NF-κB to the CD25 promoter during T cell activation.
Nickel hydroxide is a promising material for capacitor electrodes and most research has focussed on the crystalline form. Here, the authors report that amorphous nickel hydroxide nanospheres, which may be synthesized relatively easily, also exhibit excellent integrated electrochemical performance.
Metamaterials offer optical functionality, such as cloaking, that is impossible to achieve with natural bulk materials. Here, Shi and colleagues fabricate colloidal metamaterials made from silicon whose magneto-optical response considerably exceeds that of related bulk materials.
Small interfering RNA is degraded by plasma and can’t cross the cell membrane due to its negative charge. Here, the authors present an influenza inspired polymer carrier, capable of local RNA delivery, which degrades to a non-toxic by-product, and is thus suitable for multiple doses.
Aqueous lithium batteries can store more energy because of their high ionic conductivity compared with the all-solid-state or non-aqueous electrolyte based counterparts. Zhao et al. report a large energy storage density by using safe and low-cost triiodide/iodide redox reaction in an aqueous cathode.
In the Late Triassic, southern Gondwanan flora is thought to have been dominated by endemic species mainly restricted to eastern areas with some mixing with northern species. In this study, pollen and spore assemblages from Argentina reveal the presence of these mixed flora in the westernmost Gondwana as well.
Grain boundaries have an important role in determining the properties of polycrystalline materials but little has been known about changes in their atomic structure. Timofey Frolov and colleagues show that variations in atomic density in a boundary can produce different and unexpected boundary structures.