Solar light harvesting and conversion to useful energy are the most important tasks for
overcoming the world energy crisis. The design of advanced materials for solar light …

Molecular electronics that can produce functional electronic circuits using a single molecule
or molecular ensemble remains an attractive research field because it not only represents …

Practical use of quantum dots (QDs) will rely on processes that enable (i) monodispersity,(ii)
scalability,(iii) green approaches to manufacturing them. We demonstrate, a green, rapid …

Melanin is a stable, widely light-absorbing, photoactive, and biocompatible material viable
for energy conversion, photocatalysis, and bioelectronic applications. To achieve …

Abstract A novel Cu 2 O/{101} TiO 2 nanosheet (Cu 2 O/{101} TNS) array film was prepared
by the electrodeposition of Cu 2 O on the {101} facets of anatase nanosheet arrays by …

Summary Earth-abundant Cu 2 BaSnS 4-x Se x (CBTSSe) represents a recent alternative for
Cu 2 ZnSn (S, Se) 4 for solar energy conversion with a lower level of disorder and band …

Over the past ten years, tissue engineering has witnessed significant technological and
scientific advancements. Progress in both stem cell science and additive manufacturing …

In this paper, Ag 3 PO 4 nanoparticles were prepared on the surface of TiO 2 nanotube
arrays (TiO 2 NTs/Ag 3 PO 4) by a simple successive ionic layer adsorption and reaction …

The contact state at the heterojunction interfaces greatly influences the interfacial kinetics of
the photoinduced charge carriers. In this study, we used a facile NaOH pretreatment to …

In this paper, we analyze fundamental photoexcitation processes and charge carrier kinetics
in Cu2BaSnS4–x Se x (CBTSSe), a recently introduced alternative to Cu (In, Ga)(S, Se) 2 …