Hydrogen is the most effective and sustainable carrier of clean energy, and liquid-phase
hydrogen storage materials with high hydrogen content, reversibility and good …

Hydrogen has emerged as an environmentally attractive fuel and a promising energy carrier
for future applications to meet the ever‐increasing energy challenges. The safe and efficient …

In the context of global carbon dioxide increasing drastically, renewable energy is crucial
maintain the economic growth of the world. Hydrogen has attracted considerable attention …

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 …

Hydrogen (H 2) is regarded as a novel energy carrier with huge development potential, and
it will be essential in future clean energy systems. Given the existing challenges in direct H 2 …

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 …

The urgency for finding clean energy sources is nowadays latent, and the role of hydrogen
in the future of energy is well-recognized. However, there are still various barriers that limit …

Developing highly efficient solid catalysts for formic acid (HCOOH, FA) dehydrogenation is
essential to utilize FA as a hydrogen (H 2) carrier. In this work, ultrafine bimetallic PdIr …

As a kind of versatile, excellent catalyst carriers, mesoporous silicas (mSiO 2) have been
widely applied for preparing various supported catalysts with ideal catalytic properties due to …

It is very crucial but still a huge challenge to develop efficient and durable catalysts to
promote hydrogen production from formic acid (FA). Herein, three CeO 2 with structurally …