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Related Experiment Video

Updated: Sep 11, 2025

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Assembly and Processing of One-Dimensional Subnanomaterials.

Rongzhu Ma1, Shouyuan Li1, Simin Zhang1

  • 1MOE Key Laboratory of Cluster Science, School of Chemistry and Chemical Engineering, Beijing Institute of Technology (BIT), Beijing, 100081, P. R. China.

Small (Weinheim an Der Bergstrasse, Germany)
|August 11, 2025
PubMed
Summary

One-dimensional subnanomaterials (1D SNMs) offer unique properties for advanced materials. Various assembly methods enable the creation of flexible, multifunctional 1D SNM-based structures without polymers.

Keywords:
assemblyone‐dimensional subnanomaterialsprocessing

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Chemical Engineering

Background:

  • One-dimensional subnanomaterials (1D SNMs) exhibit unique properties due to their size, approaching single unit cells.
  • These materials combine inorganic functionality with polymer-like characteristics, order, and interactions.
  • 1D SNMs serve as versatile building blocks for advanced material fabrication.

Purpose of the Study:

  • To review assembly methods for integrating 1D SNMs into various material architectures.
  • To highlight the advantages of 1D SNMs over traditional inorganic materials.
  • To discuss current research trends and future directions in 1D SNM development and processing.

Main Methods:

  • Summarizes various assembly techniques: self-assembly, wet-spinning, electrospinning, directional coating, freezing-casting, and Langmuir-Blodgett.
  • Focuses on methods enabling the creation of free-standing fibers, films, and 3D assemblies.
  • Emphasizes fabrication without the need for polymeric additives.

Main Results:

  • 1D SNM assemblies are flexible and resilient, unlike rigid traditional inorganic materials.
  • Achieved multifunctionality in 1D SNM-based materials for applications like polarization, catalysis, and responsive devices.
  • Demonstrated successful integration of 1D SNMs into diverse structures using various assembly techniques.

Conclusions:

  • 1D SNMs are highly processable and offer significant advantages for creating advanced functional materials.
  • Future research aims to enhance dynamic characteristics, stimuli-responsiveness, mechanical properties, and recyclability.
  • Advancing large-scale, automated assembly is crucial for the widespread application of 1D SNM technologies.