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Solution-Processed Hydrogen-Bonded Organic Framework Nanofilms for High-Performance Resistive Memory Devices.

Xue Yang1,2, Jian Huang1,3, Shuiying Gao1

  • 1State Key Laboratory of Structural Chemistry, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fuzhou, 350002, P. R. China.

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Summary
This summary is machine-generated.

Hydrogen-bonded organic frameworks (HOFs) were successfully fabricated into high-quality nanofilms for electronic devices. These novel HOF-based memristors demonstrate excellent performance and easy regeneration, paving the way for advanced electronics.

Keywords:
hydrogen-bonded organic frameworksnanofilmsresistance-switching memristorssolution processability

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Organic Electronics

Background:

  • Hydrogen-bonded organic frameworks (HOFs) offer potential for electronic devices due to crystallinity, porosity, and regenerability.
  • Fabrication of high-quality HOF films for electronic applications remains a significant challenge.
  • Limited exploration of HOFs in electronic devices due to film fabrication difficulties.

Purpose of the Study:

  • To develop a controlled synthesis method for HOF nanofilms.
  • To investigate the performance of HOF-based memristors.
  • To explore the regeneration capabilities and switching mechanism of HOF films.

Main Methods:

  • Solution-processed approach for controlled synthesis of HOF nanofilms.
  • Fabrication and characterization of HOF-based memristors.
  • Testing of memristor performance, including set voltage, retention, endurance, and thermal stability.
  • Investigation of film regeneration and switching mechanism.

Main Results:

  • Achieved HOF nanofilms with smooth surfaces, good crystallinity, and high orientation.
  • Demonstrated outstanding bipolar switching performance in memristors (low set voltage, excellent retention, 60 cycles endurance).
  • Exhibited remarkable thermal stability up to 200 °C and facile regeneration of scratched films via solvent rinsing.

Conclusions:

  • Successfully integrated HOFs into functional memristors using a scalable solution-processed method.
  • HOF-based memristors show promising performance, stability, and reusability, outperforming traditional materials.
  • Revealed a switching mechanism involving reversible conductive filament formation/annihilation, advancing HOF applications in electronics.