Anion exchange membrane (AEM) water electrolysis is a hydrogen production method that
is achieved with an AEM, using electricity. One of the major advantages of AEM water …

A successful demonstration of closed-loop thermochemical Iodine–Sulfur (IS) cycle for
hydrogen production remains challenging owing to the lack of detailed data on …

The Bunsen reaction is the center reaction for both the sulfur–iodine water splitting cycle for
hydrogen production and the novel hydrogen sulfide splitting cycle for hydrogen and sulfuric …

For developing acid-/oxidative-resistant aliphatic-polymer-based cation-exchange
membrane (CEM), macromolecular modification of poly (vinylidene fluoride-co …

The sulfur-iodine (SI) cycle and the hybrid sulfur (HyS) cycle are considered to be promising
hydrogen production methods, and the use of catalysts to reduce the overpotential of SO 2 …

The electrochemical Bunsen reaction has been proposed as an innovative and promising
method compared with the traditional Bunsen reaction for the sulfur–iodine cycle, and its …

Thermochemical hydrogen production has attracted considerable interest as a clean energy
solution to address the challenges of climate change and environmental sustainability. The …

In overall iodine-sulphur (IS) cycle (Bunsen reaction), HI decomposition is a serious
challenge for improvement in H 2 production efficiency. Herein, we are reporting an …

The acid/oxidative-resistant aliphatic-polymer-based cation-exchange membrane (CEM) is
urgently required for water splitting by iodine-sulfur electrochemical Bunsen process (IS …

The Bunsen reaction of the sulfur–iodine cycle was carried out using an electrolysis cell
separated by a Nafion 117 membrane. The evolution of cell voltage, which indicates the …