Zhipeng Jin scite author profile

Due to their special wetting properties, bioinspired superhydrophobic coatings are used to protect various materials. However, contamination with corrosive liquids or mechanical damage causes the loss of water repellency of many superhydrophobic surfaces. Therefore, it is imperative to develop chemically stable and durable superhydrophobic coatings. In this work, we report a straightforward method to fabricate a metal–organic framework (ZIF-8)/SiO2 with hierarchical micro-/nanostructures, whose surface hydrophobicity is induced by polydimethylsiloxane (PDMS) modification. Notably, the surface of the resulting ZIF-8@SiO2/PDMS displays superhydrophobicity, together with a water contact angle (CA) of 157°. The superhydrophobic material is chemically stable, the water CA remaining above 150° even after exposure to a wide range of pH values (1–14) for 24 h. The electrochemical results showed that the coating exhibits a high corrosion potential (E corr = −0.321 V) and a very low corrosion current density (i corr = 1.442 × 10–11 A·cm–2) relative to an uncoated aluminum substrate (E corr = −0.711 V, i corr = 6.616 × 10–5 A·cm–2), indicating a high resistance to corrosion as a result of the coating. Also, electrochemical impedance spectroscopy showed that the charge transfer resistance is significantly increased by the coating. These results indicate that the ZIF-8@SiO2/PDMS coating with superhydrophobic properties has excellent corrosion resistance. In addition, the superhydrophobicity was proven for various droplets (i.e., water, tea, milk, coffee), an achievement related to the excellent self-cleaning performance: when the droplets roll off, surface contaminants are easily removed. The coating exhibited good mechanical properties, the CA being above 150° after 100 cycles of scrubbing with a pressure of 20 kPa. These excellent properties recommend the obtained superhydrophobic coating for various practical applications.

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Knowledge graph based on domain ontology and natural language processing technology for Chinese intangible cultural heritage

Dou

Qin

Jin

et al. 2018

Journal of Visual Languages & Computing

100

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Preparation and performance enhancements of wear-resistant, transparent PU/SiO₂ superhydrophobic coating

Luo

Jin

Dong

et al. 2018

Surface Engineering

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The wear resistance and transparency properties of superhydrophobicity are most important issue essential for the application of superhydrophobic materials in industry. In this paper, we successfully prepared good wear resistance PU/SiO 2 (polyurethane/silica) composite superhydrophobic coating with the double-step sol-gel route. The PU and SiO 2 coating occurs crosslinking reaction forming composite superhydrophobic coating. The superhydrophobic coating surface is characterised by environmental scanning electron microscope and other testing methods, the results show that the PU/SiO 2 composite superhydrophobic coating surface has excellent superhydrophobic properties and the Sa value was 332.5 nm. We used the pressure of 5 KPa to verify the wear resistance which the PU/SiO 2 composite superhydrophobic coating surface exhibits good wear resistance, the water contact angle (WCA) still remains 138.7°after the abrasion resistance test. The PU/SiO 2 composite superhydrophobic coating has high transparency in the visible light. The largest WCA of PU/SiO 2 composite superhydrophobic coating could reach 162.1°.

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Improving atmospheric corrosion prediction through key environmental factor identification by random forest-based model

et al. 2021

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Zhipeng Jin

Superhydrophobic Self-Cleaning Hierarchical Micro-/Nanocomposite Coating with High Corrosion Resistance and Durability

Knowledge graph based on domain ontology and natural language processing technology for Chinese intangible cultural heritage

Preparation and performance enhancements of wear-resistant, transparent PU/SiO₂ superhydrophobic coating

Improving atmospheric corrosion prediction through key environmental factor identification by random forest-based model

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Zhipeng Jin

Superhydrophobic Self-Cleaning Hierarchical Micro-/Nanocomposite Coating with High Corrosion Resistance and Durability

Knowledge graph based on domain ontology and natural language processing technology for Chinese intangible cultural heritage

Preparation and performance enhancements of wear-resistant, transparent PU/SiO2 superhydrophobic coating

Improving atmospheric corrosion prediction through key environmental factor identification by random forest-based model

Contact Info

Product

Resources

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Preparation and performance enhancements of wear-resistant, transparent PU/SiO₂ superhydrophobic coating