Develo** heterogeneous catalysts with exceptional catalytic activity over formic acid
(HCOOH, FA) dehydrogenation is imperative to employ FA as an effective hydrogen (H 2) …

Develo** Pd catalysts with high catalytic activity and stability for formic acid
dehydrogenation still remains a great challenge. Herein, a nitrogen/amino-cofunctionalized …

The storage and transportation of hydrogen gas, a non-polluting alternative to carbon-based
fuels, have always been challenging due to its extreme flammability. In this regard, formic …

Formic acid (FA) is a potential hydrogen storage material for hydrogen storage and
production under moderate circumstances using a catalytic method. Exploring excellent …

Formic acid has emerged as a highly promising hydrogen storage material, and the
development of efficient catalysts to facilitate its dehydrogenation remains imperative. In this …

Dehydrogenation of formic acid without using additives and solvents is a challenging
research problem in base metal catalysis. In this study, cobalt complexes of the type (i …

Formic acid has gained a lot of attention as one of the most promising liquid hydrogen
storage carriers. Designing efficient and cost-effective heterogeneous catalysts for formic …

The highly dispersed ultrasmall palladium nanoparticles (Pd NPs)(1.7 nm) were successfully
immobilized on a N-containing metal–organic framework (MOF, DUT-67-PZDC) using a co …

Although homogeneous catalysts outperform heterogenous catalysts for formic acid (FA)
dehydrogenation, complicated energy-intensive processes are required for catalyst …

A highly efficient diazotization of diazoacetates with para-quinone methides has been
established via a tetrabutyl ammonium bromide (TBAB)-catalyzed 1, 6-conjugated addition …