The demand for perovskite is driven by its integration with smart grid and energy storage systems, enabling efficient energy conversion and grid stability. Advancements in manufacturing techniques, ...

A is an organic cation; B is a big inorganic cation; and X3 is a smaller halogen anion (frequently oxide) that bonds to both cations. Depending on which atoms/molecules are used in the structure, ...

made of tin oxide (SnO₂), a perovskite absorber, a hole transport layer (HTL) composed of spiro-OMeTAD and molybdenum oxide (MoOₓ), and an indium zinc oxide (IZO) layer. The control device ...

Surface evolution of a lanthanum cobalt oxide perovskite during electrochemical cycling occurs via A-site dissolution and oxygen lattice evolution, forming an amorphous film that is active for ...

An innovative technique developed by a team with Sargent leads to perovskite-based solar cells with record-breaking efficiency. Atomic layer deposition, the technique used to deposit the protective ...

The research team built the top perovskite device with a substrate made of glass and ITO, a self-assembled monolayer (SAM) made of nickel(II) oxide (NiO), the perovskite absorber, an ETL relying ...

oxide (NiOx), the MeO-2PACz SAM, a perovskite absorber doped with 2-phenylethylammonium iodide (PEAI), an electron transport layer (ETL) based on a buckminsterfullerene (C60), a transparent back ...

Perovskites have tunable band gaps and function well even ... replacing metal electrodes with indium tin oxide and packaging the solar cells, our group was able to pass the industry standard 1000 hour ...