A　novel　superhydrophobic　electro-　conductive　coating　with　liquid　metal　(Ga90In10)　and　ZnO　nano-petals　is　fabricated　by　integrating　the　methods　of　spraying,　crystal　growth　and　low　surface　energy　modification.　The　results　indicate　that　the　paper-based　surface　could　be　superhydrophobic　in　cold　environment　and　successfully　realize　uni-directional　ice　driving　with　the　help　of　thermal　gradient.　We　anticipate　that　the　combination　of　excellent　superhydrophobic　performance　of　the　composite　structure　with　inherent　conductive　advantage　of　liquid　metal　will　find　a　vast　application　prospect.