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Plasmonic effects can turn reflective metals into strong absorbers, although this is usually realized within narrow wavelength ranges near resonances. Using arrays of ultra-sharp convex grooves, Søndergaardet al. show that nonresonant absorption can lead to effective broadband light absorption.
Crystallization of noble metal atoms usually leads to the thermodynamically stable face-centred cubic phase. Sunet al. show that internal strain in silver nanoparticles leads to lattice distortion and a stable body-centred tetragonal phase.
Cyclic nucleotide-gated channels are apparently voltage insensitive despite having the S4-type voltage sensor. Marchesiet al.show that the gating of wild-type CNGA1 and native CNG channels is voltage-independent in the presence of Li+, Na+ and K+, but that it is voltage-dependent in the presence of Rb+, Cs+ and organic cations.
The dynamics and structure of the glass transition in liquids is still debated. Using particle-level confocal microscopy, Leocmach and Tanaka investigate supercooled colloidal liquids and distinguish different scenarios for glassy slow dynamics, suggesting that local ordering may only play a minor role.
The electronic and optical properties of polymer semiconductors are largely dictated by their chemical structure. This study examines the nature of the photoexcited states generated in donor–acceptor polymers, and uncovers the dynamics of polaron pairs generation and recombination.
The protein OASIS belongs to the CREB/ATF transcription factor family and is involved in endoplasmic reticulum stress responses. Saito and colleagues show that these stress responses temporally activate OASIS in neural precursor cells, resulting in their differentiation into astrocytes.
During the last glacial termination, the North Atlantic experienced a cold interval, but its impact on tropical climate variability is not clear. Here, a fossil Tahiti coral record shows that tropical sea surface temperature varied actively during this event, consistent with climate model simulations.
Vascular endothelial growth factor receptors (VEGFRs) assemble in dimers, the composition of which is thought to influence their function. Here, Cudmoreet al. create a synthetic ligand that specifically activates VEGFR-1:VEGFR-2 heterodimers and explore their role in regulating endothelial cell function.
Downsizing antennas to the nanoscale is a promising way to manipulate light emission from fluorescent sources. Bussonet al. used a short DNA strand to position a lone fluorescent molecule between two gold particles with nanometre resolution, achieving enhanced decay rates and single photon emission.
Controlling the behaviour of single molecules on electrode interfaces is crucial for the development of molecular spintronics. This study reports spin-polarized scanning tunnelling microscopy data of the spin-split molecular orbitals of a single-molecule magnet adsorbed on a cobalt surface.
The realization of wafer-scale graphene electronics is envisaged to open up the route to the use of graphene in mainstream electronics. Hertelet al.take a step in this direction by fabricating a transistor with a SiC channel and graphene electrodes, with excellent performance up to megahertz frequencies.
Monarch Butterflies (Danaus plexippus) use their antennae for orientation during their autumnal migration. Guerra and colleagues differentially disrupt clock gene expression in each antenna and find that the individual outputs are integrated and processed to allow precise control of orientation behaviour.
Cell-penetrating peptides can be used to deliver nucleic acids and proteins to cells, however they lack selectivity. In this study, cell-penetrating peptides are generated that can selectively target tumour cells of different cellular origins and these may be useful in the treatment of cancer.
Gene-expression divergence produces phenotypic diversity, but the molecular basis for this is not clear. Here, a genome-wide study ofcis- and trans-regulation in Arabidopsisallopolyploids and their progenitors provides evidence for natural selection and epigenetic regulation during evolution and speciation.
Metal-organic frameworks are promising candidates for capturing and sequestering carbon dioxide. Chen and co-workers report a metal-organic framework that exhibits high uptake of carbon dioxide at ambient conditions, and is a potentially useful adsorbent for post-combustion carbon dioxide capture.
Phospholipase C is a signalling molecule with many cellular functions, but its physiological role at the organismal level is largely unknown. Kanemaruet al.show that phospholipase Cδ1 in the mouse epidermis influences interleukin and leukocyte concentrations in the blood.
Photonic crystal semiconductor lasers normally operate in a non-radiative mode, characterized by reduced losses but also low surface emission. Using graded photonic heterostructures, Xuet al. boost power extraction by forcing laser emission in a mode with higher radiation efficiency.
Majorana fermions—the particles renowned for being their own antiparticles—have been proposed as candidates for storing qubits for quantum computers. Sau and Das Sarma propose a method for creating stable Majorana fermions in an array of quantum dots.
Quantum communication promises important advances in information and communication technology, yet it suffers from alignment sensitivity. Here, an alignment-free approach is demonstrated using liquid crystal devices, allowing for broader applications, including satellites.
Molecular systems with rigid macrocyclic backbones self-assemble into synthetic nanopores that mimic the mass-transport characteristics of biological channels. Zhouet al. produce self-assembling hydrophobic nanopores that mediate highly selective transmembrane ion transport and highly efficient transmembrane water permeability.