Thin films of azobenzene dicarboxylate-based Cu-MOF: Generating electronic heterostructure by molecular doping

BHOI, UMASHIS; HASSAN, NAHID; KALYANI, MINI; JOSE, THERESE MARIYA; BALLAV, NIRMALYA; SAHA, SAUVIK; UGALE, AJAY

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Thin films of azobenzene dicarboxylate-based Cu-MOF: Generating electronic heterostructure by molecular doping

SAHA, SAUVIK; JOSE, THERESE MARIYA; KALYANI, MINI; HASSAN, NAHID; BHOI, UMASHIS; UGALE, AJAY; BALLAV, NIRMALYA

URI: https://doi.org/10.1007/s12039-025-02365-y http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/9794 Date: 2025-03

Abstract:

Circumventing the limitations of lattice-mismatch factors in usual heterostructured thin films of metal-organic frameworks (MOFs), recent studies have achieved exotic electronic heterostructures for possible next-generation thin film device applications. This study reports a robust strategy to significantly enhance the conductivity in thin films of 4,4′-azobenzene dicarboxylate (ADA) linker-based 1D Cu-MOF while also creating an electronic heterostructure system in the process and explores how photoexcitation might perturb its electrical transport behaviour.

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Thin films of azobenzene dicarboxylate-based Cu-MOF: Generating electronic heterostructure by molecular doping

Thin films of azobenzene dicarboxylate-based Cu-MOF: Generating electronic heterostructure by molecular doping

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