- Flexible elastomer patch with vertical silicon nanoneedles for intracellular and intratissue nanoinjection of biomolecules
A thin transparent wearable patch with silicon nanoneedles is developed for efficient interface with biological cells and tissues.
- Evidence for a quantum spin Hall phase in graphene decorated with Bi2Te3 nanoparticles
Topological insulating graphene is created using decoration of an extremely small quantity of heavy nanoparticles.
- Magnetic and defect probes of the SmB6 surface state
The topological nature of surface states in SmB6 is revealed using samples with magnetic substituents or magnetic tunneling tips.
- Enhanced quantum coherence in exchange coupled spins via singlet-triplet transitions
Long-lived spin coherence arises from two coupled atoms on a surface.
- Coalescence-induced jumping of droplets on superomniphobic surfaces with macrotexture
Superomniphobic surfaces with macrotextures allow coalescence-induced jumping of droplets at Ohnesorge number >1.
- Extremely flat band in bilayer graphene
In both experiment and theory, we demonstrate a novel mechanism of flattened band formation in a honeycomb lattice bilayer.
- Entanglement signatures of emergent Dirac fermions: Kagome spin liquid and quantum criticality
Quantum entanglement reveals fingerprints of emergent Dirac fermions in the novel spin liquid state on the kagome lattice.
- An ion redistributor for dendrite-free lithium metal anodes
Dendrite-free lithium metal anodes are achieved by solid lithium ionic conductors as ion redistributors to homogenize Li ions.
- Toward all-day wearable health monitoring: An ultralow-power, reflective organic pulse oximetry sensing patch
Ultralow-power organic wearable patches have been developed for all-day monitoring of heart rate and blood oxygen level.
- The genetic prehistory of the Andean highlands 7000 years BP though European contact
Ancient DNA from the Andes reveals a complex picture of human adaptation from early settlement to the colonial period.
- Mechanism of FACT removal from transcribed genes by anticancer drugs curaxins
Protumor factor FACT is removed from transcribed genes by anticancer drugs curaxins.
- TET2 coactivates gene expression through demethylation of enhancers
An epigenetic axis directs a transcriptional program via enhancer activation by MLL3 COMPASS and TET2-dependent DNA demethylation.
- Engineering human megakaryocytic microparticles for targeted delivery of nucleic acids to hematopoietic stem and progenitor cells
Cell-derived microparticles, with their native recognition abilities, can be used as novel carriers for targeted cargo delivery to stem cells.
- The optimal mating distance resulting from heterosis and genetic incompatibility
Offspring are fittest when parents are genetically neither too close nor too distant from each other.
About The Cover
COVER Whether summer extreme weather events—floods, wildfires, droughts and heat waves—will increase in future years depends on competition between the warming effect of increasing greenhouse gases and the opposing effect of regional cooling from atmospheric pollutants called aerosols (which reflect sunlight back to space), a new study finds. Presently, assumptions about the nature and concentrations of aerosols in climate models differ, largely due to complex underlying chemistry and physics. This leads to different estimations of future summer weather events. Seeking a better grasp on the likelihood of an increase in extreme weather events in years ahead, Mann et al. modeled how summer events look in future as conditions favorable to quasi-resonant amplification (QRA)—a phenomenon whereby jetstream patterns showcase large undulations that lock in place, trapping weather systems between them—increase. In some simulations, these events actually decrease, largely because of aerosol's cooling effect, which offsets the warming from greenhouse gases. Ultimately, say the authors, how summer event intensity and frequency will play out in future is critically dependent on human behaviors related to fossils fuels and aerosols. [CREDIT: MARK THIESSEN/NATIONAL GEOGRAPHIC IMAGE COLLECTION]