Breathing effects of CO2 adsorption on a flexible 3D lanthanide metal-organic framework

This work reports a new three-dimensional flexible lanthanide metal-organic framework [La(BTB)(H2O)center dot 3DMF](n) (BTB 1,3,5-tris(4-carboxyphenyl) benzene) that possesses a rare chiral space group (P6(5)22), very high thermal stability (560 degrees C), and high surface area (1014 m(2) g(-1)). This new MOF demonstrates a large adsorption hysteresis loop on the N-2 isotherm at 77K after activation at 300 degrees C. Powder X-ray thermodiffraction experiments reveal that structural transformation occurs upon removal of guest molecules. The as-synthesized material is the "open" form, while the activated sample is "closed". Adsorption isotherms of CO2 exhibit a dramatic step near a relative pressure of 0.3, which is similar to the location of the step in the N-2 isotherm at 77 K. Upon desorption, the material transforms to the closed form near a reduced pressure of 0.15, where it collapses back to the adsorption isotherm. Adsorption kinetic studies show that equilibrium is reached more slowly during the opening/closing steps compared to adsorption loadings measured on the static portion of the isotherm.