The increasing proliferation of third-generation semiconductor
silicon carbide (SiC) products has led to the emergence of SiC powder
as an industrial byproduct. To reutilize the SiC efficiently, we propose
a facile method for fabrication of photocatalytic plates from reclaimed
SiC. Our approach involves affixing the SiC onto a glass surface with
laser cladding, followed by sputter deposition of a gold film and
laser annealing. The resulting nanogold-coated SiC plate exhibited
enhanced photocatalytic activity due to the injection of hot electrons
into the SiC via surface plasmon resonance. Unlike chemical reduction,
which requires hours for the synthesis, purification, and isolation
of Au/SiC, our approach accomplished this in just 30 min. When illuminated,
the Au/SiC plate generated electron–hole pairs that formed
radicals in the presence of water and oxygen, leading to the decomposition
of methylene blue. Furthermore, the Au/SiC plate can be integrated
into a microfluidic device for an enhanced degradation rate and efficiency.
This research provides a simple and environmentally friendly approach
to the production of photocatalytic plates from reclaimed SiC and
contributes to sustainable development.