As a state-of-the-art resource for in situ hydrogen supply, formic acid has recently attracted
considerable attention due to its advantages of high hydrogen content, low toxicity, and easy …

Catalysis is at the core of previous energy transition. It has enabled the use of oil and natural
gas as our primary energy sources in unprecedented ways and led to feedstocks enabling …

In this work, a hierarchically porous carbon was prepared from carbonization of a nitrogen-
containing metal–organic framework, followed by activation under ultrasonication in …

With the renewed interest for hydrogen as an energy carrier, means to produce, but most
importantly store, transport, and distribute,“green” hydrogen over long distances has …

Transitioning from fossil fuels to sustainable and green energy sources in mobile
applications is a difficult challenge and demands sustained and highly multidisciplinary …

A dimeric tethered π-coordinated-phenoxy ruthenium precatalyst has been used for the
base-free hydrogenation of CO2 in DMSO. The same precatalyst was also efficient in the …

The development of an efficient heterogeneous catalyst for storing H2 into CO2 and
releasing it from the produced formic acid, when needed, is a crucial target for overcoming …

Formic acid dehydrogenation (FAD) is considered as a promising process in the context of
hydrogen storage. Its low toxicity, availability and convenient handling make FA attractive as …

Carbon dioxide (CO2), a valuable feedstock, can be reutilized as a hydrogen carrier by
hydrogenating CO2 to formic acid (FA) and releasing hydrogen by FA dehydrogenation in a …

The series of bimetallic complexes (t BuPXCYP) Pd (μ-OC) M (CO) 2L (X, Y= CH2, O; M= W,
Mo; L= Cp, Tp) catalyzes formic acid decomposition into H2/CO2 in fairly mild conditions (25 …