Category Technology/Electronics

Simulations by Rice University scientists show how carbon nanomaterials may be optimized to replace expensive platinum in cathodes for electricity-generating fuel cells for transportation and other applications. Credit: Yakobson Research Group/Rice University

Simulations by scientists show how carbon nanomaterials may be optimized to replace expensive platinum in cathodes for electricity-generating fuel cells. Nitrogen-doped carbon nanotubes, CNTs, or modified graphene nanoribbons may be suitable replacements for platinum for fast O2 reduction, the key reaction in fuel cells that transform chemical energy into electricity, according to Rice University researchers. Their study reveals the atom-level mechanisms by which doped nanomaterials catalyze oxygen reduction reactions (ORR).

Theoretic...

This is a closer look at the target of frozen solution that contains the building blocks for the solar cell material. Credit: E. Tomas Barraza

Delicate hybrid organic-inorganic crystals open new possibilities for light-based technologies. Materials scientists at Duke University have developed a method to create hybrid thin-film materials that would otherwise be difficult or impossible to make. The technique could be the gateway to new generations of solar cells, LEDs and photodetectors.

Perovskites are a class of materials that – with the right combination of elements – have a crystalline structure that makes them particularly well-suited for light-based applications...

The battery uses both oxygen and iron to store and release electrical energy. Credit: Zhenpeng Yao

By using iron and oxygen to simultaneously drive the electrochemical reaction, a novel battery is less expensive and has a higher capacity. On paper, it doesn’t seem like Christopher Wolverton’s super lithium-rich battery should work. For one, the novel battery uses iron, an inexpensive metal that has notoriously failed in batteries. And in another difficult feat, the battery leverages oxygen to help drive the chemical reaction, which researchers previously believed would cause the battery to become unstable. But not only does the battery work, it does so incredibly well.

Teaming up with researchers at Argonne National Laboratory, Wolverton’s group at Northwestern University developed a recha...

Researchers at Los Alamos National Laboraotry are creating double-pane solar windows that generate electricity with greater efficiency and also create shading and insulation. It’s all made possible by a new window architecture which utilizes two different layers of low-cost quantum dots tuned to absorb different parts of the solar spectrum. The approach complements existing photovoltaic technology by adding high-efficiency sunlight collectors to existing solar panels or integrating them as semitransparent windows into a building’s architecture.

Using two types of “designer” quantum dots, researchers are creating double-pane solar windows that generate electricity with greater efficiency and create shading and insulation for good measure...