Surface modifications towards superhydrophobic wood-based composites: Construction strategies, functionalization, and perspectives

Amidst the burgeoning interest in multifunctional superhydrophobic wood-based composites (SWBCs) for their varied applications and the need for improved environmental resilience, recent efforts focus on enhancing their utility by integrating features such as mechanical and chemical stability, self-healing capabilities, flame resistance, and antimicrobial properties. Research indicates that various external conditions can influence the wettability and additional characteristics of SWBCs. This comprehensive review outlines three critical factors affecting SWBCs' performance: synthesis methods, wood taxonomy, and chemical agents. It further provides a detailed overview of SWBCs' specific attributes, including essential qualities for diverse applications and the limitations posed by different contexts. Additionally, it elaborates on performance evaluation techniques, offering a foundational framework for SWBCs' practical application. This work aims to serve as an important resource for future research and development in SWBC engineering.

A permanent covalent bond-crosslinked thermosetting polymer with room-temperature autonomous self-healing performance

A room-temperature autonomous self-healing thermosetting polymer was prepared by crosslinking hydroxylated hyperbranched polymer with permanent covalent bonds for the first time.

Fabrication of a micro/nanoscaled hierarchical structure surface on brass with anti-icing and self-cleaning properties

The micro/nanoscaled hierarchical structure could trap a large volume of air to form an “air-cushion”, which improves the anti-icing and self-cleaning properties.

Facile preparation of cotton fabric with superhydrophilicity–oleophobicity in air and superoleophobicity under water by using branched polyethyleneimine/perfluorooctanoic acid composites

Preparation of cotton fabric with superhydrophilicity-oleophobicity in the air and superoleophobicity under water by using branched polyethyleneimine/perfluorooctanoic acid composites and its application in gravity-controlled oil-water separation.