Thermochemical water-splitting (TWS) processes are regarded as one of the most
environmentally friendly strategies, capable of harnessing high-temperature waste heat from …

The development of clean hydrogen production methods is important for large-scale
hydrogen production applications. The solar thermochemical water-splitting cycle is a …

Hydrogen is an energy carrier and thermochemical cycles are a sustainable and benign
method for hydrogen production. This study reviews and investigates thermochemical …

In the present study, the most common thermochemical cycles in the literature for hydrogen
production are reviewed and discussed comparatively. These thermochemical cycles are …

Lead halide-based perovskite quantum dots (PQDs) have recently emerged as an important
class of nanocrystal (NC) materials for optoelectronic and photoelectrochemical …

The sulfur-iodine (S–I or I–S) thermochemical cycle is viewed as a leading method for
hydrogen production due to its environmental sustainability, cost-efficiency, and high …

Nuclear hydrogen production is one of the most prospective methods of efficiently producing
CO 2-free hydrogen in large scale. In the Institute of Nuclear and New Energy Technology of …

Abstract The Iodine-Sulfur (IS) or called Sulfur-Iodine (SI) thermochemical water-splitting
cycle is one of the most promising hydrogen production methods through heat. For future …

This paper aims to propose an innovative breakthrough methodology for hydrogen
production through water splitting over Fe 3 O 4 pellet at low temperature (T= 250° C; 290° …

Nuclear energy can offer clean, efficient, and large-scale hydrogen production, and a
polygeneration system can meet multi-level energy demands. In this study, a novel …