Cell-derived nanomaterials for biomedical applications

Yip, Li Xian; Wang, Jinping; Xue, Yuling; Xing, Kuoran; Sevencan, Cansu; Ariga, Katsuhiko; Leong, David Tai

doi:10.1080/14686996.2024.2315013

Science and Technology of Advanced Materials

2024

DOI: 10.1080/14686996.2024.2315013

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Cell-derived nanomaterials for biomedical applications

Li Xian Yip,

Jinping Wang,

Yuling Xue

et al.

Abstract: The ever-growing use of nature-derived materials creates exciting opportunities for novel development in various therapeutic biomedical applications. Living cells, serving as the foundation of nanoarchitectonics, exhibit remarkable capabilities that enable the development of bioinspired and biomimetic systems, which will be explored in this review. To understand the foundation of this development, we first revisited the anatomy of cells to explore the characteristics of the building blocks of life that is rele… Show more

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Cited by 9 publications

References 126 publications

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Interface‐Interactive Nanoarchitectonics: Solid and/or Liquid

Ariga

2024

ChemPhysChem

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The methodology of nanoarchitectonics is to construct functional materials using nanounits such as atoms, molecules, and nanoobjects, just like architecting buildings. Nanoarchitectonics pursues the ultimate concept of materials science through the integration of related fields. In this review paper, under the title of interface‐interactive nanoarchitectonics, several examples of structure fabrication and function development at interfaces will be discussed, highlighting the importance of architecting materials with nanoscale considerations. Two sections provide some examples at the solid and liquid surfaces. In solid interfacial environments, molecular structures can be precisely observed and analyzed with theoretical calculations. Solid surfaces are a prime site for nanoarchitectonics at the molecular level. Nanoarchitectonics of solid surfaces has the potential to pave the way for cutting‐edge functionality and science based on advanced observation and analysis. Liquid surfaces are more kinetic and dynamic than solid interfaces, and their high fluidity offers many possibilities for structure fabrications by nanoarchitectonics. The latter feature has advantages in terms of freedom of interaction and diversity of components, therefore, liquid surfaces may be more suitable environments for the development of functionalities. The final section then discusses what is needed for the future of material creation in nanoarchitectonics.

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Interface‐Interactive Nanoarchitectonics: Solid and/or Liquid

Ariga

2024

ChemPhysChem

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Advances in nanoarchitectonics of metal-organic frameworks and metal-/metalloid-containing nanomaterials for antibacterial and antifungal applications

Abd-El-Aziz,

Li,

Fouda

et al. 2024

Applied Materials Today

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Baiting bacteria with amino acidic and peptidic corona coated defect-engineered antimicrobial nanoclusters for optimized wound healing

Wang,

Zhu,

Xue

et al. 2024

Bioactive Materials

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Cell-derived nanomaterials for biomedical applications

Cited by 9 publications

References 126 publications

Interface‐Interactive Nanoarchitectonics: Solid and/or Liquid

Interface‐Interactive Nanoarchitectonics: Solid and/or Liquid

Advances in nanoarchitectonics of metal-organic frameworks and metal-/metalloid-containing nanomaterials for antibacterial and antifungal applications

Baiting bacteria with amino acidic and peptidic corona coated defect-engineered antimicrobial nanoclusters for optimized wound healing

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