Researchers have identified hexagonal perovskite-related oxides as materials with exceptionally high proton conductivity and thermal stability. Their unique crystal structure and large number of ...

Stable and high oxide-ion conductors based on a new hexagonal perovskite-related oxide has been reported in a recent study. These high-performance oxide-ion conductors could pave the way for the ...

The proton-conducting layer currently found in solid oxide fuel cells is typically made from a perovskite structure (left). Using machine learning, a research team, led by Kyushu University, has ...

Coupling high ionic and low electronic conductivity in the electrolyte of low-temperature solid-oxide fuel cells remains a challenge. Now, the electronic conductivity of a perovskite electrolyte, ...

With water as the only “waste” product, solid oxide fuel cells, often known as SOFCs, are a type of electrochemical device that uses hydrogen as fuel to produce electricity. Naturally, businesses and ...

Researchers in Singapore have built an inverted perovskite PV device with a p-type antimony-doped tin oxides (ATOx) interlayer that reportedly reduces the efficiency disparity between small and ...

DUBLIN--(BUSINESS WIRE)--The "Solid Electrolytes for Li-ion Solid-State Batteries Patent Landscape" report has been added to ResearchAndMarkets.com's offering. This report focuses on solid electrolyte ...

Scientists in the United Kingdom have used alumina oxide (Al₂O₃) nanoparticles (NPs) as an interfacial modifier at the hole transport layer (HTL) to increase the lifetime of perovskite solar cells.

Long before perovskite solar cells began smashing efficiency records and transforming the future of clean energy, their modern design first emerged from a quiet experiment at Northwestern University.

A low-magnification plan-view HAADF images of a two-unit-cell freestanding STO film transferred to a holey carbon TEM grid. (Credit: Nature) Regular readers of Physics World will already be familiar ...

The material’s high proton conductivity and chemical stability at temperatures of 200–500 °C can pave the way for more durable fuel cells Fuel cells offer a promising solution for clean energy by ...