Inspired　by　plants　and　animals　in　nature,　durable　superhydrophobic　surfaces　have　been　successfully　developed　in　the　past　decades.　However,　the　practical　application　of　these　superhydrophobic　surfaces　suffers　from　poor　mechanical　and　chemical　stability　after　damage　or　longtime　usage.　Thus,　effective　silicone-based　polymers　are　developed　to　prepare　the　intelligent　self-healing　and　durable　superhydrophobic　coatings　with　multifunctions.　The　superhydrophobic　coatings　are　composed　of　dynamic　silicone　polymers　and　silica　nanoparticles,　which　can　be　applicable　in　various　substrates　with　enhanced　water　repellency.　The　abundant　hydrogen　bonds　and　reversible　B-O　covalent　bonds　in　the　dynamic　silicone　polymers　enable　a　strong　binding　force　with　the　substrate　and　self-healing　nature.　Thus,　the　superhydrophobic　coatings　exhibit　a　high　contact　angle　up　to　159.3°,　and　a　low　sliding　angle　of　6.9°.　Meanwhile,　it　displays　mechanical　stability　against　washing　and　abrasion　damage,　and　chemical　stability　in　acid　and　alkaline　environment.　Especially,　it　is　capable　of　repairing　the　superhydrophobicity　after　damage　due　to　the　reversible　association/dissociation　of　dynamic　B-O　covalent　bonds　in　silicone　polymers.　In　addition,　the　superhydrophobic　cotton　fabric　shows　excellent　anti-fouling,　self-cleaning,　antibacterial　property,　and　can　be　applied　in　oil–water　separation　with　high　efficiency.　This　robust　and　versatile　superhydrophobic　coatings　without　containing　perfluoro-compounds　are　promising　in　commercial　textile　fishing　treatment　with　low　cost.　©　2024　Elsevier　B.V.