Single Crystals of Electrically Conductive Two-Dimensional Metal–Organic Frameworks: Structural and Electrical Transport Properties

Day, Robert William; Bediako, D. Kwabena; Rezaee, Mehdi; Parent, Lucas R.; Skorupskii, Grigorii; Arguilla, Maxx Q; Hendon, Christopher H.; Stassen, Ivo; Gianneschi, Nathan C.; Kim, Philip; Dinca, Mircea

Author(s)

Day, Robert William; Bediako, D. Kwabena; Rezaee, Mehdi; Parent, Lucas R.; Skorupskii, Grigorii; ... Show more

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Abstract

Crystalline, electrically conductive, and intrinsically porous materials are rare. Layered two-dimensional (2D) metal-organic frameworks (MOFs) break this trend. They are porous crystals that exhibit high electrical conductivity and are novel platforms for studying fundamentals of electricity and magnetism in two dimensions. Despite demonstrated applications, electrical transport in these remains poorly understood because of a lack of single crystal studies. Here, studies of single crystals of two 2D MOFs, Ni3(HITP)2 and Cu3(HHTP)2, uncover critical insights into their structure and transport. Conductivity measurements down to 0.3 K suggest metallicity for mesoscopic single crystals of Ni3(HITP)2, which contrasts with apparent activated conductivity for polycrystalline films. Microscopy studies further reveal that these MOFs are not isostructural as previously reported. Notably, single rods exhibit conductivities up to 150 S/cm, which persist even after prolonged exposure to ambient conditions. These single crystal studies confirm that 2D MOFs hold promise as molecularly tunable platforms for fundamental science and applications where porosity and conductivity are critical.

Date issued

2019-12

URI

https://hdl.handle.net/1721.1/128656

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

ACS Central Science

Publisher

American Chemical Society (ACS)

Citation

Day, Robert William et al. "Single Crystals of Electrically Conductive Two-Dimensional Metal–Organic Frameworks: Structural and Electrical Transport Properties." ACS Central Science 5, 12 (December 2019): 1959–1964. © 2019 American Chemical Society

Version: Final published version

ISSN

2374-7943

2374-7951

Collections

MIT Open Access Articles