At present, microbial fuel cells are mainly used in research laboratories to generate electricity. In order for industrial applications to be considered in the future, the fuel cells must be further ...

Chinese researchers have developed a new solar cell with a planar n-i-p structure and an indium tin oxide (ITO) substrate. It also has a tin(IV) oxide (SnO2) buffer layer, a perovskite layer, a hole ...

The PSFNRu nanocomposite serves as a symmetric electrode for DA‑SSOFC, in which FeNiRu alloy nanoparticles are in‑situ exsolved under a reducing atmosphere. Compared to the parent material, the PSFNRu ...

Due to cheaper cost, ease of production and environmental benefits, battery makers and electric vehicle manufacturers have ...

Irvine, California-based Enevate and Korea’s JR Energy Solution today announced that they’re going to jointly build a US battery cell electrode factory. Enevate and JR ES will tailor-make lithium-ion ...

Chinese researchers fabricated a kesterite PV device using a transparent fluorine-doped tin oxide (FTO) substrate instead of substrates based on opaque Mo-coated soda lime glass. The cell has an ...

An American battery company wants to completely rethink how lithium-ion batteries are made. The company claims its electrode-to-pack design eliminates waste and boosts energy efficiency. It can ...

Tesla has spent years promoting its 4680 battery cell as the key to cheaper, longer-range electric vehicles. Yet the company’s own regulatory filings and the underlying science tell a far less ...

Researchers at Linköping University have succeeded in creating a close connection between individual cells and organic electronics. Using so-called atomic force microscopy, they examine nerve cells ...