With the long term objective to build the next generation of devices from the molecular scale,
scientists have explored extensively in the past two decades the Prussian blue derivatives …

The reduction of carbon dioxide by water with sunlight in an artificial system offers an
opportunity for utilizing non-arable land for generating renewable transportation fuels to …

Since the report of photomagnetic effects in Prussian blue Fe/Co networks 20 years ago by
the Japanese group of Hashimoto, a substantial family of molecular analogs have been …

The excited‐state version of the Creutz–Taube ion was prepared via visible light excitation
of [(NH3) 5RuII (μ‐pz) RuII (NH3) 5] 4+. The resulting excited state is a mixed valence {RuIII …

In efficient solar energy conversion for environmental and energy applications, the use of
visible-light-active photocatalysis as a green and sustainable technology has become a …

New magnetic materials and methods for controlling them are needed to improve data
storage technologies. Recent progress has enabled optical detection and manipulation of …

The dynamics of the photodriven charge transfer-induced spin transition (CTIST) in two
Fe/Co Prussian Blue Analogues (PBAs) are revealed by femtosecond IR and UV/vis pump …

Mild synthetic methods are demonstrated for the selective assembly of oxo-bridged
heterobinuclear units of the type TiOCrIII, TiOCoII, and TiOCeIII on mesoporous silica …

We show that a vanadium–chromium Prussian blue analogue, which is a room-temperature
molecule-based magnet, displays a fast magnetic response on a femtosecond timescale that …

Upon MLCT photoexcitation,{(tpy) Ru} becomes the electron acceptor in the mixed valence
{(tpy˙−) RuIII− δ-NC-MII+ δ} moiety, reversing its role as the electron donor in the ground …