Solar-to-chemical energy conversion via heterogeneous photocatalysis is one of the
sustainable approaches to tackle the growing environmental and energy challenges. Among …

The conversion and storage of solar energy to chemical energy via artificial photosynthesis
holds significant potential for optimizing the energy situation and mitigating the global …

Thermo-photo catalysis, which is the catalysis with the participation of both thermal and
photo energies, not only reduces the large energy consumption of thermal catalysis but also …

Integrating plasmonic nanoparticles into the photoactive metal-organic matrix is highly
desirable due to the plasmonic near field enhancement, complementary light absorption …

Photo-thermal catalysis has recently emerged as an alternative route to drive chemical
reactions using light as an energy source. Through the synergistic combination of photo-and …

The successful development of artificial photosynthesis requires finding new materials able
to efficiently harvest sunlight and catalyze hydrogen generation and carbon dioxide …

Plasmonic nanostructures have shown immense potential in photocatalysis because of their
distinct photochemical properties associated with tunable photoresponses and strong light …

Electrocatalysis plays a vital role in energy conversion and storage in modern society.
Localized surface plasmon resonance (LSPR) is a highly attractive approach to enhance the …

Strong interactions of electromagnetic fields with plasmonic nanomaterials have been
exploited in various applications. These applications have centred on plasmon-enhanced …

Plasmon-mediated chemical reactions (PMCRs) are processes that make use of
nanostructure-based surface plasmons as mediators to redistribute and convert photon …