Highly　transparent,　durable,　and　flexible　liquid-repellent　coatings　are　urgently　needed　in　the　realm　of　transparent　materials,　such　as　car　windows,　optical　lenses,　solar　panels,　and　flexible　screen　materials.　However,　it　has　been　difficult　to　strike　a　balance　between　the　robustness　and　flexibility　of　coatings　constructed　by　a　single　cross-linked　network　design.　To　overcome　the　conundrum,　this　innovative　approach　effectively　combines　two　distinct　cross-linked　networks　with　unique　functions,　thus　overcoming　the　challenge.　Through　a　tightly　interwoven　structure　comprised　of　added　crosslinking　sites,　the　coating　achieves　improved　liquid　repellency　(WCA＞100°,　OSA＜10°),　increased　durability　(withstands　2,000　cycles　of　cotton　wear),　enhanced　flexibility　(endures　5,000　cycles　of　bending　with　a　bending　radius　of　1　mm),　and　maintains　high　transparency　(over　98　%　in　the　range　of　410　nm　to　760　nm).　Additionally,　the　coating　with　remarkable　adhesion　can　be　applied　to　multiple　substrates,　enabling　large-scale　preparation　and　easy　cycling　coating,　thus　expanding　its　potential　applications.　The　architecture　of　this　fluoride-free　dual　cross-linked　network　not　only　advances　liquid-repellent　surfaces　but　also　provides　valuable　insights　for　the　development　of　eco-friendly　materials　in　the　future.　©　2024