Amidst the burgeoning interest in multifunctional superhydrophobic wood-based composites
(SWBCs) for their varied applications and the need for improved environmental resilience …

Surface wetting has a significant influence on the performance and applications of the
materials. The superhydrophobic surfaces have water repellency due to low surface energy …

Water resources are increasingly being damaged by human activities, and it is crucial to
deal effectively with polluted water resources. Due to the diversity of pollution sources (oil …

Graphene membrane is considered the preferred item of thermal conductivity material for
wearable devices due to its unique flexibility and high thermal conductivity. However, water …

The research on superwetting surfaces with a self-healing function against various damages
has progressed rapidly in the recent decade. They are expected to be an effective approach …

Some plants and insects exhibit superhydrophobicity in nature. Inspired by this, many
researchers have designed superhydrophobic surfaces by studying the structures of those …

Nowadays, superhydrophobic surfaces have attracted a lot of interest because of the wide
range of applications in industries. These surfaces can significantly reduce the drag force …

The properties of superhydrophobic wood depend heavily on the design of micro roughness
and low-surface-energy chemical components via various fabrication strategies. However …

It is highly challenging to construct a durable superhydrophobic coating for practical
applications since the coating is easily destroyed by mechano-chemical attack. To address …

Paper-based materials have been widely used in packaging replacing nonbiodegradable
fossil-based polymers due to the increasing concerns on environmental pollution. However …