Dye sensitized solar cells (DSSCs) use low-cost materials, feature tunable molecular
sensitizers, and exhibit quantum efficiencies near unity. These advantageous features can …

Nanoporous SnO2–ZnO heterojunction nanocatalyst was prepared by a straightforward two-
step procedure involving, first, the synthesis of nanosized SnO2 particles by homogeneous …

Interfaces between the photoactive and charge transport layers are crucial for the
performance of perovskite solar cells. Surface passivation of SnO2 as electron transport …

Nanoporous oxides have been established as key materials for constructing electrodes for
energy conversion and storage devices, offering high surface area and a large number of …

Recently, low temperature solution-processed tin oxide (SnO2) as a versatile electron
transport layer (ETL) for efficient and robust planar heterojunction (PH) perovskite solar cells …

Electrochromic materials exhibit switchable optical properties that can find applications in
various fields, including smart windows, nonemissive displays, and semiconductors. High …

Innovative solution routes led to two types of tin dioxide nanocrystals, ie 10–15 nm spheroid
cassiterite nanoparticles and 50–150 nm anisotropic cassiterite particles showing …

Dye-sensitized solar cells (DSCs) show potential as a low cost alternative to silicon solar
cells. Power conversion efficiencies exceeding 12% have been achieved for DSCs. Typical …

Efficient visible-light-driven photocatalysis can be achieved over conventional wide band
gap semiconductor, in which iodinated SnO2 quantum dots (QDs) are synthesized via …

Low‐temperature solution‐processed SnO2 as a promising electron‐transport material for
planar perovskite solar cells (PSCs) has attracted particular attention because of its …