Converting CO 2 into add-value products is an appealing strategy to alleviate the
environmental deterioration due to the high emission of atmospheric CO 2 and energy …

Photocatalytic solar to energy conversion is considered an attractive approach for
overcoming energy crises and environmental concerns. Recently, titanium carbide (Ti 3 C 2) …

Using sunlight to drive chemical reactions via photocatalysis is paramount for a sustainable
future. Among several photocatalysts, employing layered double hydrides (LDH) for …

Photo-degradation of pollutant and photo-reduction of CO 2 are efficient ways to address
challenges of water pollution, the greenhouse effect and energy crisis, respectively. In our …

Owing to their unique properties, the electrochemically self-organized TiO 2 nanotube arrays
(TNTAs) have attracted great attention as promising nanomaterials for energy and …

Efficient nanomaterials are in high demand in photocatalytic applications to maximize solar
energy conversion to renewable fuels. There is growing research on the use of metals as …

The layered structure of layered double hydroxides (LDH) is essential for its usage as an
electrode material, yet the absence of efficient charge exchange across layered structures …

The heterostructures of different two-dimensional (2D) materials have garnered significant
attention recently as emerging energy conversion and storage systems. Combining highly …

The bireforming of methane (CH 4) with carbon dioxide (CO 2) and water, called BRM, is a
process for generating syngas, which is utilized as a feed for methanol production. The …

Photocatalytic reduction of CO 2 to high-energy products is an effective way to utilize solar
energy and mitigate the greenhouse effect. In this paper, a series of CQDs/Bi 12 O 17 Cl …