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Related Concept Videos

Corrosion02:49

Corrosion

The degradation of metals due to natural electrochemical processes is known as corrosion. Rust formation on iron, tarnishing of silver, and the blue-green patina that develops on copper are examples of corrosion. Corrosion involves the oxidation of metals. Sometimes it is protective, such as the oxidation of copper or aluminum, wherein a protective layer of metal oxide or its derivatives forms on the surface, protecting the underlying metal from further oxidation. In other cases, corrosion is...
Microbial Corrosion01:24

Microbial Corrosion

Microbiologically Influenced Corrosion (MIC) is a significant form of material degradation caused by the metabolic activities of microorganisms. This phenomenon poses substantial challenges across various industries, including oil and gas, maritime, and water treatment sectors.MIC occurs when microorganisms, such as bacteria, archaea, and fungi, colonize metal surfaces, forming biofilms that alter the local electrochemical environment. These biofilms can lead to the production of corrosive...

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Updated: Jun 5, 2026

TiO2-coated Hollow Glass Microspheres with Superhydrophobic and High IR-reflective Properties Synthesized by a Soft-chemistry Method
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Solution-Processed Two-Dimensional Metal Oxide Anticorrosion Nanocoating.

Leanddas Nurdiwijayanto1, Hiroki Nishijima2, Yoshiharu Miyake2

  • 1International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science (NIMS), Namiki 1-1, Tsukuba, Ibaraki 305-0044, Japan.

Nano Letters
|August 25, 2021
PubMed
Summary
This summary is machine-generated.

Two-dimensional metal oxide nanosheets offer a scalable, cost-effective alternative to graphene for advanced anticorrosion nanocoatings. These coatings provide excellent protection and durability for industrial metal applications.

Keywords:
anticorrosionmetal oxide nanosheetsnanocoatingsolution-processtwo-dimensional nanomaterials

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Area of Science:

  • Materials Science
  • Corrosion Science
  • Nanotechnology

Background:

  • Graphene-based anticorrosion nanocoatings face industrial limitations due to cost, scalability, and quality issues.
  • Two-dimensional (2D) nanomaterials, specifically metal oxide nanosheets, present a promising alternative for advanced anticorrosion applications.

Purpose of the Study:

  • To propose requirements for rational anticorrosion nanocoating using metal oxide nanosheets.
  • To demonstrate the efficacy of Ti$_{0.87}$O$_{2}$ and Ca$_{2}$Nb$_{3}$O$_{10}$ nanosheet coatings for metal protection.

Main Methods:

  • Facile layer-by-layer (LbL) self-assembly technique for fabricating nanosheet coatings.
  • Characterization of coating performance on stainless steel (SUS) substrates.
  • Evaluation of corrosion resistance, mechanical, and thermal robustness through driving tests.

Main Results:

  • 10 and 20 nm thick nanosheet coatings achieved high inhibition efficiency (IE) of 99.92% and 99.89% on stainless steel.
  • Nanosheet-coated samples exhibited suitable corrosion resistance, mechanical, and thermal robustness in driving tests.
  • Understanding and control of thermal oxidation mechanisms were established for high-temperature applications.

Conclusions:

  • Metal oxide nanosheet coatings offer a viable and high-performance solution for anticorrosion nanotechnology.
  • The LbL self-assembly method provides a scalable route for industrial implementation.
  • Further materials design and understanding of thermal mechanisms will enhance high-temperature applications.