%AClaire, F.%ASolomos, Marina%AKim, Jungkil%AWang, Gaoqiang%ASiegler, Maxime%ACrommie, Michael%AKempa, Thomas%BJournal Name: Nature Communications; Journal Volume: 11; Journal Issue: 1; Related Information: CHORUS Timestamp: 2021-12-02 02:00:55 %D2020%INature Publishing Group %JJournal Name: Nature Communications; Journal Volume: 11; Journal Issue: 1; Related Information: CHORUS Timestamp: 2021-12-02 02:00:55 %K %MOSTI ID: 10200142 %PMedium: X %TStructural and electronic switching of a single crystal 2D metal-organic framework prepared by chemical vapor deposition %XAbstract

The incorporation of metal-organic frameworks into advanced devices remains a desirable goal, but progress is hindered by difficulties in preparing large crystalline metal-organic framework films with suitable electronic performance. We demonstrate the direct growth of large-area, high quality, and phase pure single metal-organic framework crystals through chemical vapor deposition of a dimolybdenum paddlewheel precursor, Mo2(INA)4. These exceptionally uniform, high quality crystals cover areas up to 8600 µm2and can be grown down to thicknesses of 30 nm. Moreover, scanning tunneling microscopy indicates that the Mo2(INA)4clusters assemble into a two-dimensional, single-layer framework. Devices are readily fabricated from single vapor-phase grown crystals and exhibit reversible 8-fold changes in conductivity upon illumination at modest powers. Moreover, we identify vapor-induced single crystal transitions that are reversible and responsible for 30-fold changes in conductivity of the metal-organic framework as monitored by in situ device measurements. Gas-phase methods, including chemical vapor deposition, show broader promise for the preparation of high-quality molecular frameworks, and may enable their integration into devices, including detectors and actuators.

%0Journal Article