Science Highlights | U.S. DOE Office of Science (SC)

Optical microscope image of triangular-shaped metal-diselenide monolayer hetero-structures.

Connecting Three Atomic Layers Puts Semiconducting Science on Its Edge

New material with a layered, atomic sandwich structure has unique optoelectronic properties.

Scanning electron micrograph (top) shows the arrangement of iron-nickel nanomagnets for the newly developed “shakti” artificial spin ice lattice...

Artificial Spin Ice - A New Playground to Better Understand Magnetism

Experiments using novel magnetic nanostructures confirm theoretically predicted behavior – bolstering their utility as a tool for understanding complex magnetic materials.

Oxygen ions can zigzag or take a circular route (red arrows) through this metal oxide crystal made of strontium (green), chromium (blue), oxygen (red) atoms...

Bringing Order to Defects - Making Way for Oxygen to Move

New metal oxide material works at temperatures low enough to improve fuel cell efficiency.

Scanning electron micrograph image of germanium nanowires electrodeposited onto an indium tin oxide electrode from aqueous solution.

Highly Conductive Germanium Nanowires Made by a Simple, One-Step Process

Lithium-ion batteries could benefit from this inexpensive method.

Piezo-response force microscopy image of ferroelectric domains in hexagonal erbium manganite...

Direct Visualization of Magnetoelectric Domains

New microscopy technique reveals giant enhancement of coupling between magnetic and electric dipoles that could lead to novel electronic devices.

How to Achieve Unconventional Superconductivity in a Heavy-Electron Metal

Microscopic understanding offers fresh directions for discovering new materials to transmit energy without loss.

Arrays of nanoribbons of lead zirconate titanate (gold, bottom) on a sheet of flexible polymer (brown) produce current pulses during each heartbeat.

Power from the Heart

Advances in materials processing enable harvesting of energy from heartbeats.

A series of x-ray scattering images are taken at ultrafast time intervals with an x-ray laser after excitation with an infra-red source that energizes the vibrational modes of a Germanium crystal.

X-ray Laser Used to Produce Movies of Atomic-scale Motion

Stroboscopic x-ray pulses scatter from a vibrating crystal and reveal how energy moves.

Nanobionic Leaf: DNA-coated carbon nanotubes (top) incorporated inside chloroplasts in the leaves of living plants (middle) boost plant photosynthesis.

Nanobionics Supercharge Photosynthesis

Carbon nanotubes and inorganic nanoparticles enhance photosynthetic activity and stability.

An anti-Brownian single-molecule microfluidic trap is used to observe individual light-harvesting antenna complexes in solution.

Shining Light on the Fleeting Interactions of Single Molecules

New technique allows scientists to observe the dynamic structural changes of single biomolecules in solution.

Breaking Down the Mechanisms of Biomass Deconstruction

Study reveals insights into plant structural changes during bioenergy pretreatments.

Representative structures of the fluoroprotactinates synthesized and their structures determined using single crystal X-ray crystallography.

At an Elemental Crossroad: Investigating the Chemistry of Protactinium

Studies of protactinium aim to understand its chemistry and its unique electronic properties in the actinide elements.