Single-atom catalysts are thought to be the pinnacle of catalysis. However, for many
reactions, their suitability has yet to be unequivocally proven. Here, we demonstrate why …

Formic acid (FA) has come to be considered a potential candidate for hydrogen storage, and
the development of efficient catalysts for H 2 releasing is crucial for realizing the sustainable …

It remains a grand challenge to prepare highly efficient and stable Pd/C catalyst for catalytic
H2 production from formic acid (FA). Here through a simple deposition-precipitation method …

Heterogeneous catalysis of formic acid dehydrogenation at room temperature is a promising
tactic for safely storing and producing H2 as an efficient energy carrier. Up to now, the …

Sourcing our ever-increasing demand for energy to power our high-paced and energy-
thirsty industries poses a never-ending challenge. Therefore, many academic, industrial …

The success of the so-called “hydrogen economy” for large-scale applications will ultimately
depend on efficient and sustainable production, storage and distribution of hydrogen. Owing …

Single-site heterogeneous catalysis with isolated Pd atoms was reported earlier, mainly for
oxidation reactions and for Pd catalysts supported on oxide surfaces. In the present work, we …

Hydrogen evolution by the catalytic decomposition of formic acid in solution is a key reaction
for hydrogen storage for which palladium is one of the most efficient catalysts. Based on …

The use of formic acid (FA) to produce molecular H2 is a promising means of efficient energy
storage in a fuel‐cell‐based hydrogen economy. To date, there has been a lack of …

Formic acid (FA) represents a convenient H 2-source/storage material. Herein, we introduce
two highly efficient heterogeneous catalysts for H 2-generation from FA, Fe II/RPPh 2@ SiO …