Recent developments of nanocatalyzed liquid-phase hydrogen generation
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 storage materials with high hydrogen content, reversibility and good …
Nanopore‐supported metal nanocatalysts for efficient hydrogen generation from liquid‐phase chemical hydrogen storage materials
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 …
for future applications to meet the ever‐increasing energy challenges. The safe and efficient …
Heterogeneous catalysis for carbon dioxide mediated hydrogen storage technology based on formic acid
M Liu, Y Xu, Y Meng, L Wang, H Wang… - Advanced Energy …, 2022 - Wiley Online Library
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 …
maintain the economic growth of the world. Hydrogen has attracted considerable attention …
Metal-support interactions in heterogeneous catalytic hydrogen production of formic acid
S Bai, A Jia, J Song, S Cao, N Wang, X Liu - Chemical Engineering Journal, 2023 - Elsevier
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 …
it will be essential in future clean energy systems. Given the existing challenges in direct H 2 …
Functionalized biochars as supports for Pd/C catalysts for efficient hydrogen production from formic acid
Biomass waste product was used to generate biochars as catalytic supports for selective
hydrogen production from formic acid. The supports were obtained after pyrolysis in CO 2 …
hydrogen production from formic acid. The supports were obtained after pyrolysis in CO 2 …
Covalent triazine framework encapsulated ultrafine PdAu alloy nanoclusters as additive-free catalysts for efficient hydrogen production from formic acid
Dehydrogenation of formic acid (FA) represents a promising route for clean hydrogen
production, the economic viability of which, however, is largely hindered by the catalyst …
production, the economic viability of which, however, is largely hindered by the catalyst …
Understanding the effect of Pd size on formic acid dehydrogenation via size-controlled Pd/C catalysts prepared by NaBH4 treatment
Herein, we investigated the effect of Pd size on a formic acid dehydrogenation (FAD)
reaction. A series of size-controlled Pd/C catalysts was simply prepared by a treatment using …
reaction. A series of size-controlled Pd/C catalysts was simply prepared by a treatment using …
New approaches toward the hydrogen production from formic acid dehydrogenation over Pd-based heterogeneous catalysts
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 …
in the future of energy is well-recognized. However, there are still various barriers that limit …
Mechanistic analysis-guided Pd-based catalysts for efficient hydrogen production from formic acid dehydrogenation
X Qin, H Li, S Xie, K Li, T Jiang, XY Ma, K Jiang… - ACS …, 2020 - ACS Publications
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 …
tactic for safely storing and producing H2 as an efficient energy carrier. Up to now, the …
“On–off” switch for H2 and O2 generation from HCOOH resp. H2O2
In spite of the numerous advances in the development of H2 and O2 evolutions upon water
splitting, the separation of H2 from O2 still remains a severe challenge. Herein, the novel …
splitting, the separation of H2 from O2 still remains a severe challenge. Herein, the novel …