Superhydrophobic (SHO) surfaces have drawn great attention thanks to their theoretical significance and myriad applications in industry everyday life. Current approaches fabricate such require calcinating at high temperatures, tedious time‐consuming treatments, toxic chemicals, and/or processing with intricate instruments. Long‐duration SHO are even more challenging due material instability easy contamination by organic pollutants dry conditions. To overcome these difficulties we design a simple approach via self‐supplying of low surface tension chemicals nanoparticles multifunctional heterostructures. The method herein features room temperature, rapid processing, environment‐friendly raw materials. With multiple functions as photocatalysis transparency further extend lifetime enable self‐sustaining environment maintenance.

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