The monolithic hetero-integration of III/V materials on Si substrates could enable a multitude
of new device applications and functionalities which would benefit from both the excellent …

Silicon solar cells are the most established solar cell technology and are expected to
dominate the market in the near future. As state-of-the-art silicon solar cells are approaching …

High efficiency triple-junction solar cells are currently made of III–V semiconductors using
expensive deposition methods. Perovskite/perovskite/silicon monolithic triple-junction solar …

Challenges posed by the intermittency of solar energy source necessitate the integration of
solar energy conversion with scalable energy storage systems. The monolithic integration of …

III–V on Si multijunction solar cells exceede the efficiency limit of Si single‐junction devices
but are often challenged by expensive layer transfer techniques. Here, progress in the …

Following recent developments in photoelectrochemical and photovoltaic–electrosynthetic
systems, we present the benefits of III–V semiconductors for solar water splitting. In addition …

III–V/Si epitaxial tandems with a 1.7-eV GaAsP top cell promise stable power conversion
efficiencies above the fundamental limit of Si single-junction cells. However, III–V/Si epitaxial …

The renewable power industry is currently experiencing a rapid growth led by photovoltaic
systems because of advances in materials science and cost reductions in processing …

Systematically discusses the growth method, material properties, and applications for key
semiconductor materials MOVPE is a chemical vapor deposition technique that produces …

The integration of III–V semiconductors with Si has been pursued for more than 25 years
since it is strongly desired in various high-efficiency applications ranging from …