Transparent hierarchical columnar nanocomposites

[Display omitted] •Columnar nanocomposites mimicking the transparent teeth of deep-sea dragonfish.•Highly transparent, ultralow haze, and birefringent.•Enamel-like modulus, hardness, and indentation fracture toughness.•Functional synergy by hierarchical design. The expertise of living organisms to c...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 466; p. 143167
Main Authors Han, Shuangxia, Tang, Jinyu, Qi, Xiaodong, Sun, Weiming, Jiang, Zhonghao, Hou, Ying, Yang, Ming, Feng, Shouhua
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.06.2023
Subjects
Biomimetic materials
Hierarchical architecture
Mechanical properties
Nanocomposites
Transparent materials
Transparent materials
Mechanical properties
Biomimetic materials
Nanocomposites
Hierarchical architecture
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Abstract [Display omitted] •Columnar nanocomposites mimicking the transparent teeth of deep-sea dragonfish.•Highly transparent, ultralow haze, and birefringent.•Enamel-like modulus, hardness, and indentation fracture toughness.•Functional synergy by hierarchical design. The expertise of living organisms to combine a desirable set of mechanical and optical properties in biological tissues originates from genetically controlled formation of hierarchical architecture. By mimicking the enamel prisms consisting of nanorod clusters, we integrate high transparency and ultralow haze with enamel-like hardness, modulus, and indentation fracture toughness in hierarchical columnar nanocomposites. The aligned bundled nanorods from a seeded growth on top of single nanorods are the key building unit for combining all these properties, achieving a transmittance as high as 90% in the visible and ultralow haze of less than 1%, when the refractive index of fluorapatite matches with epoxy resin with appropriate crosslinkers. The highly transparent columnar nanocomposites are also optically anisotropic showing apparent birefringence. Compared with single nanorods, bundled nanorods as inorganic motif enable similar modulus but a 40% higher indentation fracture toughness owing to the additional stress passivation mechanism at the intra-rod interface, despite of higher inorganic contents. Better energy dissipation ability under dynamic conditions is achieved for hierarchical columnar nanocomposites because of more effective plastic energy dissipation pathway. The functional synergies achieved in this study using hierarchical design underly a general biomimetic principle for creating high-performance multifunctional materials.
AbstractList [Display omitted] •Columnar nanocomposites mimicking the transparent teeth of deep-sea dragonfish.•Highly transparent, ultralow haze, and birefringent.•Enamel-like modulus, hardness, and indentation fracture toughness.•Functional synergy by hierarchical design. The expertise of living organisms to combine a desirable set of mechanical and optical properties in biological tissues originates from genetically controlled formation of hierarchical architecture. By mimicking the enamel prisms consisting of nanorod clusters, we integrate high transparency and ultralow haze with enamel-like hardness, modulus, and indentation fracture toughness in hierarchical columnar nanocomposites. The aligned bundled nanorods from a seeded growth on top of single nanorods are the key building unit for combining all these properties, achieving a transmittance as high as 90% in the visible and ultralow haze of less than 1%, when the refractive index of fluorapatite matches with epoxy resin with appropriate crosslinkers. The highly transparent columnar nanocomposites are also optically anisotropic showing apparent birefringence. Compared with single nanorods, bundled nanorods as inorganic motif enable similar modulus but a 40% higher indentation fracture toughness owing to the additional stress passivation mechanism at the intra-rod interface, despite of higher inorganic contents. Better energy dissipation ability under dynamic conditions is achieved for hierarchical columnar nanocomposites because of more effective plastic energy dissipation pathway. The functional synergies achieved in this study using hierarchical design underly a general biomimetic principle for creating high-performance multifunctional materials.
ArticleNumber 143167
Author Tang, Jinyu
Jiang, Zhonghao
Sun, Weiming
Hou, Ying
Qi, Xiaodong
Feng, Shouhua
Yang, Ming
Han, Shuangxia
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  givenname: Shouhua
  surname: Feng
  fullname: Feng, Shouhua
  organization: State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, Jilin University, Changchun 130012, China
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Snippet [Display omitted] •Columnar nanocomposites mimicking the transparent teeth of deep-sea dragonfish.•Highly transparent, ultralow haze, and...
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SubjectTerms Biomimetic materials
Hierarchical architecture
Mechanical properties
Nanocomposites
Transparent materials
Title Transparent hierarchical columnar nanocomposites
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