News Center

Nanoscale Tetrapods Could Provide Early Warning of a Material’s Failure

Light-emitting, four-armed nanocrystals could someday form the basis of an early warning system in structural materials by revealing microscopic cracks that portend failure.

Researchers Build World’s Largest Database Of Crystal Surfaces And Shapes

Nanoengineers at the University of California San Diego, in collaboration with the Materials Project at Lawrence Berkeley National Laboratory (Berkeley Lab), have created the world’s largest database of elemental crystal surfaces and shapes to date. Dubbed Crystalium, this new open-source database can help researchers design new materials for technologies in which surfaces and interfaces play

Researchers Peel Back Another Layer of Chemistry with ‘Tender’ X-rays

Scientists can now directly probe a previously hard-to-see layer of chemistry, which forms in a narrow band where liquid meets solid, thanks to a unique X-ray toolkit developed at Berkeley Lab.

Energy Department to Invest $16 Million in Computer Design of Materials

The U.S. Department of Energy announced today that it will invest $16 million over the next four years to accelerate the design of new materials through use of supercomputers. Two four-year projects—including one team led by Berkeley Lab — will leverage the Lab’s expertise in materials and take advantage of superfast computers at DOE national laboratories to develop software for designing new functional materials to revolutionize applications in alternative and renewable energy, electronics, and more.

5 Nanoscience Research Projects That Could Deliver Big Results

Berkeley Lab researchers are using the science of the very small to help solve big challenges. That’s because, at the nanoscale—the scale of molecules and proteins—new and exciting properties emerge that can possibly be put to use. Here are five projects, now underway and recently highlighted in the News Center, which promise big results from the

Berkeley Lab Scientists Grow Atomically Thin Transistors and Circuits

In an advance that helps pave the way for next-generation electronics and computing technologies—and possibly paper-thin gadgets —Berkeley Lab scientists developed a way to chemically assemble transistors and circuits that are only a few atoms thick.

Scientists See Electron Bottleneck in Simulated Battery

An international team of scientists that includes Berkeley Lab researchers has revealed how interactions between electrons and ions can slow down the performance of vanadium pentoxide, a material considered key to the next generation of batteries.

On the Path Toward Bionic Enzymes

Berkeley Lab chemists have successfully married chemistry and biology to create reactions never before possible. They did this by replacing the iron normally found in the muscle protein myoglobin with iridium, a noble metal not known to be used by living systems.

Massive Trove of Battery and Molecule Data Released to Public

The Materials Project, a Google-like database of material properties aimed at accelerating innovation, has released an enormous trove of data to the public, giving scientists working on fuel cells, photovoltaics, thermoelectrics, and a host of other advanced materials a powerful tool to explore new research avenues. But it has become a particularly important resource for researchers working on batteries.

New Chemical ‘Sponges’ Designed to Soak Up Toxic Cancer-fighting Drugs After Targeting Tumors

Researchers are creating materials for a cancer treatment system designed to limit the side effects of chemotherapy drugs by quickly removing them from the body after use.