Exfoliation of metal-organic framework nanosheets using surface acoustic waves.

• Surface acoustic wave (SAW) technology is proposed to exfoliate large quantities and uniform layers of two-dimensional (2D) metal-organic framework (MOF) Zn 2 (bim) 4 nanosheets. • The thickness of MOF sheet can be controlled by adjusting the exposure time of surface acoustic wave. • Electric field generated by surface acoustic waves plays an important role in the stripping process. Monolayer nanosheets can only be obtained under the simultaneous action of sound field and electric field. Two-dimensional (2D) metal–organic framework (MOF) nanosheets have recently received extensive attention due to their ultra-thin thickness, large specific surface area, chemical and functional designability. In this study, an unconventional method using surface acoustic wave (SAW) technology is proposed to exfoliate large quantities and uniform layers of 2D MOF-Zn 2 (bim) 4 nanosheets in a microfluidic system. We successfully demonstrated that the thickness of 2D MOF is effectively and accurately controlled by optimizing the SAW parameters. The mechanisms for the efficient exfoliation of 2D MOF nanosheets is attributed to both the electric and acoustic fields generated by the SAWs in the liquid. The electric field ionizes the methanol to produce H+ ions, which intercalate Zn 2 (bim) 4 sheets and weaken the interlayer bonding, and the strong shear force generated by SAWs separates the MOF sheets. A yield of 66% for monolayer MOFs with a maximum size of 3.5 μm is achieved under the combined effect of electric and acoustic fields. This fast, low-energy exfoliation platform has the potential to provide a simple and scalable microfluidic exfoliation method for production of large-area and quantities of 2D MOFs. [ABSTRACT FROM AUTHOR]