Abstract
Abstract
Environmental pollution is becoming one of the main issues facing human civilisation as a result of
the world's growing industrialisation. Using limitless solar energy, photocatalysis may be used to
address environmental issues. Whilst, the incorporation of ultrasonic cavitation in various processes
such as the Fenton-like process, electrochemical process, and especially sono-photocatalysis offer
ideal conditions for increasing biomass fragmentation and conversion into target products and green
hydrogen within a lesser reaction time. The scientific community and industry have taken a serious
interest in the intensification of ultrasonic processes for a variety of applications, as well as the
resulting synergistic effects based on conventional comparisons in literature. In light of this, the
purpose of this review is to summarize the current research in the field, provide an overview of the
recent studies on ultrasound-assisted different catalytic processes for hydrogen production and
discuss their limits and validity, comparing them to conventional techniques. Finally, a few future
perspectives in the form of suggestions on ultrasound-assisted photocatalysis for hydrogen production
from various biomass models and different wastes, and highlighting the role and recent evolution of
carbon-based materials in this field, are presented together with current issues and challenges to
clarify future attitudes in the hopes of exploring this ideal combination for large-scale H2 production.