In the last decade, organic–inorganic hybrid and metal halide perovskite materials have
shown tremendous tunability properties and capacity to harvest solar energy efficiently via …

Organometallic mixed halide perovskite solar cells (PSCs) have emerged as a promising
photovoltaic technology with increasingly improved device efficiency exceeding 24 …

In this work, we demonstrate that the performance of c-Si/ZnO heterojunction ultrathin-film
solar cells (SCs) is enhanced by an integrated structure of c-Si trapezoidal pyramids on the …

Carrier transport layers have been recognized as a key factor to determine the performance
of perovskite solar cells (PSCs) by dominating the charge carrier extraction, transport and …

Zinc oxide (ZnO) is expected to be the desirable electron transport layer (ETL) for planar
perovskite solar cells (PVSCs) because of excellent electron mobility, superior transmittance …

Research on perovskites, a highly promising type of semiconductor material in the field of
photovoltaics, has made amazing progress. The development of perovskite solar cells …

Using hydrogen as an energy source has gained broad interest because of its eco-friendly,
renewable, high energy density, and sustainable nature. It is important to note that hydrogen …

In this work, the absorption of solar energy of thin-film c-silicon (silicon is 1 μm)
heterojunction solar cells (SSCs) with the combination of Ag nanoparticles (NPs) and TiO 2 …

ZnO and TiO2 are both well-known electron transport materials; however, an exact
comparison of their performance, when fabricated under the same synthesis conditions, is …

The ever‐increasing demand for clean sustainable energy has driven tremendous
worldwide investment in the design and exploration of new active materials for energy …