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Prospects for electroactive and conducting framework materials.

Ryuichi Murase1, Bowen Ding1, Qinyi Gu1

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Summary
This summary is machine-generated.

Electroactive framework materials, including coordination polymers and metal-organic frameworks, offer tunable properties for advanced applications. This review compares their potential against traditional inorganic materials, highlighting historical context and future directions.

Keywords:
coordination polymerselectroactive materialsmetal–organic frameworks

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Area of Science:

  • Materials Science
  • Inorganic Chemistry
  • Nanotechnology

Background:

  • Electroactive and conducting framework materials, such as coordination polymers and metal-organic frameworks (MOFs), possess highly designable nanoporous structures.
  • These materials have diverse potential applications including electrochromic devices, electrocatalysts, porous conductors, batteries, and solar energy harvesting.
  • Traditional solid-state materials like minerals, pigments, and zeolites have a long history and established uses in various fields.

Purpose of the Study:

  • To provide a historical perspective on traditional electroactive and conducting inorganic materials.
  • To compare the strengths and challenges of framework materials with traditional solid-state materials.
  • To discuss recent experimental progress and future directions in coordination polymers and MOFs.

Main Methods:

  • Literature review and comparative analysis.
  • Historical perspective on inorganic materials.
  • Discussion of recent advancements in framework materials.

Main Results:

  • Framework materials offer unique advantages due to their tunable structures and properties.
  • Traditional materials provide a valuable historical context and benchmark.
  • Emerging research indicates significant potential for advanced applications of coordination polymers and MOFs.

Conclusions:

  • Coordination polymers and MOFs represent a burgeoning area with substantial promise.
  • Understanding the historical context of inorganic materials informs future research directions.
  • Continued innovation in electroactive framework materials is crucial for technological advancement.