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Updated: May 11, 2026

Synthesis of Single-Crystalline Core-Shell Metal-Organic Frameworks
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Complex three-dimensional polymer-metal core-shell structures towards emission control.

Lin Ren1, De-Gong Wang, Li-Gang Niu

  • 1Information Countermeasure Department, Aviation University of Air Force, Changchun 130022, People's Republic of China.

Physical Chemistry Chemical Physics : PCCP
|May 14, 2013
PubMed
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Researchers created 3D nickel nanostructures using lasers and plating. These metallic photonic crystals show thermal stability and emit light at specific wavelengths, enabling low-temperature applications.

Area of Science:

  • Materials Science
  • Nanotechnology
  • Photonics

Background:

  • Developing advanced materials for photonic applications is crucial.
  • Controlling nanostructure fabrication for specific optical properties remains a challenge.

Purpose of the Study:

  • To fabricate three-dimensional (3D) periodic metal nanostructures.
  • To investigate the thermal stability and optical properties of these nanostructures.

Main Methods:

  • Utilized femtosecond laser-induced two-photon polymerization to create polymer templates.
  • Employed electroless plating technology for depositing nickel onto the templates.
  • Controlled nickel deposition speed at 10 nm/s.
  • Performed optical reflectivity and thermal emission measurements up to 550 °C.

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Preparation of Highly Porous Coordination Polymer Coatings on Macroporous Polymer Monoliths for Enhanced Enrichment of Phosphopeptides
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Preparation of Highly Porous Coordination Polymer Coatings on Macroporous Polymer Monoliths for Enhanced Enrichment of Phosphopeptides

Published on: July 14, 2015

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Last Updated: May 11, 2026

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Synthesis, Characterization, and Functionalization of Hybrid Au/CdS and Au/ZnS Core/Shell Nanoparticles
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Main Results:

  • Successfully fabricated 3D periodic nickel nanostructures with controlled deposition speed.
  • Demonstrated good thermal stability of the nickel-polymer structure up to 500 °C.
  • Observed thermal excitation and light emission at λ = 4.50, 4.95 μm at 550 °C.
  • Emission peaks correlated with absorption peaks, indicating photonic crystal behavior.

Conclusions:

  • Metallic photonic crystals can be efficiently fabricated using laser-templated electroless plating.
  • The method offers a simple and cost-efficient approach for creating functional nanostructures.
  • The fabricated emitters are suitable for low-temperature applications due to their operational characteristics.