Bending a New Tool for Low Power Computing

Theory predicts that bending a film will control spin direction and create a spin current for next-generation electronics.

Molecular Mousetraps Capture More Nuclear Waste

Cage-like molecules with internal chemical hooks remove three times more hazardous radioactive iodine compounds than current methods.

New Quantum Liquid Crystal--In the Driver's Seat

Lasers reveal a new state of matter--the first 3-D quantum liquid crystal.

Chemical "Pressure" Tuning Magnetic Properties

Unexpectedly, a little chemical substitution stabilizes unusual magnetic phase of vortexes called skyrmions.

Stirring up a Quantum Spin Liquid with Disorder

New, unexpected paradigm discovered: Disorder may actually promote an exotic quantum state, with potential for ultrafast computing.

Light Perfects Interfaces

Shining light on a growing semiconductor modifies its interface with the surface and could improve the optical properties of each.

Underappreciated Microbes Now Get Credit for Holding Down Two Jobs in Soil

Soil microbes work as both decomposers and synthesizers of carbon compounds in soil, offering new answers with impacts to crops and eco-health.

Energy, Economy, and the Earth: The Benefits of Creating Feedback Loops

Scientists reduce uncertainties in future climate prediction by directly coupling an energy-economy model to an Earth system model.

How Grasslands Regulate Their Productivity in Response to Droughts

Scientists show that grasslands are more sensitive to changes in the amount of moisture in the air than to changes in precipitation.

Building Confidence in Hydrologic Models

Scientists evaluate seven hydrologic models to understand how each model agrees and differs.

El Nino and Liquid Water Clouds Contribute to Antarctic Melt in 2015-2016

Atmospheric Radiation Measurement (ARM) observations provide clues on atmospheric contributions to an Antarctic melt event.

Designer Yeast Consumes Plant Matter and Spits Out Fatty Alcohols for Detergents and Biofuels

Highest concentration and yield of valuable chemicals reported in industrial yeast Saccharomyces cerevisiae.

Making Polymer Chemistry Click

Scientists unlock the key to efficiently make a new class of engineering polymers.

Photosynthesis without Cells: Turning Light into Fuel

An entirely human-made architecture produces hydrogen fuel using light, shows promise for transmitting energy in numerous applications.

Craters on Graphene: Electrons Impact

Novel defect control in graphene enables direct imaging of trapped electrons that follow Einstein's rules.

A Molecular Zipper for Efficient Gas Separation

Metal-organic frameworks with chains of iron centers adsorb and release carbon monoxide with very little energy input.

The Challenge of Estimating Alaska's Soil Carbon Stocks

A geospatial analysis determined the optimal distribution of sites needed to reliably estimate Alaska's vast soil carbon.

Unplugging the Cellulose Biofuel Bottleneck

Molecular-level understanding of cellulose structure reveals why it resists degradation and could lead to cost-effective biofuels.

How Fungal Enzymes Break Down Plant Cell Walls

Lignocellulose-degrading enzyme complexes could improve biofuel production.

Stretching to Perfection of 2-D Semiconductors

Scientists use heat and mismatched surfaces to stretch films that can potentially improve the efficient operation of devices.

Simple is Beautiful in Quantum Computing

Defect spins in diamond were controlled with a simpler, geometric method, leading to faster computing.

The Effect of Hurricanes on Puerto Rico's Dry Forests

More frequent storms turn forests from carbon source to sink.

A Chemical Thermometer for Tropical Forests

Monoterpene measures how certain forests respond to heat stress.

Where a Leaf Lands and Lies Influences Carbon Levels in Soil for Years to Come

Whether carbon comes from leaves or needles affects how fast it decomposes, but where it ends up determines how long it's available.

Twisting Molecule Wrings More Power from Solar Cells

Readily rotating molecules let electrons last, resulting in higher solar cell efficiency.