Litcius/Paper detail

Robust Biomimetic Hierarchical Diamond Architecture with a Self-Cleaning, Antibacterial, and Antibiofouling Surface

Tao Wang, Lei Huang, Yuzhi Liu, Xingxing Li, Chunhua Liu, Stephan Handschuh‐Wang, Xu Yang, Ying Zhao, Yongbing Tang

2020ACS Applied Materials & Interfaces129 citationsDOI

Abstract

Biofouling is a worldwide problem from healthcare to marine exploration. Aggressive biofouling, wear, and corrosion lead to severe deterioration in function and durability. Here, micro- and nanostructured hierarchical diamond films mimicking the morphology of plant leaves were developed to simultaneously achieve superhydrophobicity, antibacterial efficacy, and marine antibiofouling, combined with mechanical and chemical robustness. These coatings were designed and successfully constructed on various commercial substrates, such as titanium alloys, silicon, and quartz glass via a chemical vapor deposition process. The unique surface structure of diamond films reduced bacteria attachment by 90-99%. In the marine environment, these biomimetic diamond films significantly reduced more than 95% adhesion of green algae. The structured diamond films retained mechanical robustness, superhydrophobicity, and antibacterial efficacy under high abrasion and corrosive conditions, exhibiting at least 20 times enhanced wear resistance than the bare commercial substrates even after long-term immersion in seawater.

Topics & Concepts

BiofoulingMaterials scienceDiamondNanotechnologyChemical vapor depositionAbrasion (mechanical)CorrosionTitaniumComposite materialSiliconChemical engineeringMetallurgyMembraneGeneticsEngineeringBiologyMarine Biology and Environmental ChemistrySurface Modification and SuperhydrophobicityPolymer Surface Interaction Studies
Robust Biomimetic Hierarchical Diamond Architecture with a Self-Cleaning, Antibacterial, and Antibiofouling Surface | Litcius