Theoretical discussion of the coordination space created in metal-organic frameworks (MOFs), which have recently attracted many chemists, should include not only the roles of MOFs but also the characteristics of adsorbates, requiring estimates of their electronic state (ES) properties, microscopic interactions and thermodynamics of an ensemble of adsorbate molecules in dynamic responding states interacting with MOFs. This article reports, by using a combination of ES and molecular mechanical (MM) methods and Monte Carlo (MC) simulation, a sequence of theoretical chemical determination of crystal structures, adsorption energies and adsorption isobars of O-2 molecules in so-called CPL-1 (coordination polymer 1 with pillared layer structure), i.e., a MOF[Cu-2(pzdc)(2)(pyz)](n) (pzdc: pyrazine-2,3-dicarboxylate; pyz: pyrazine) as were synthesized recently by Kitagawa's group [R. Kitaura, S. Kitagawa, Y. Kubota, T. C. Kobayashi, K. Kindo, Y. Mita, A. Matsuo, M. Kobayashi, H.-C. Chang, T. C. Ozawa, M. Suzuki, M. Sataka, M. Takata, Science 298 (2002) 2358] and have been well-investigated by the MEM (maximum entropy method)/Rietveld method, using in situ high resolution X-ray powder diffraction data, drawing their attention on van der Waals (vdW) dimers of physisorbed O-2 locating in the middle of nanochannels (1-dim O-2 dimers ladder structure). The theoretical methods employed include molecular orbital theory, density functional theory (DFT), MM method with calibrated vdW and electrostatic parameters and grand canonical MC (GCMC) simulation. In the DFT method, the pyrazine ring is found tilting in coinciding with O-2 adsorption and its binding energy is -10.92 kcal/mol, being in reasonable agreement with the adsorption energy at 0K, -4.12 kcal/mol, extrapolated linearly from the calculated adsorption isobar curve by GCMC simulations, where the MM O-2 potential parameters are calibrated according to recent ab initio ES calculations. Finally, from the MM structural optimization, it is clearly shown that introduction of quadrupole interaction makes inclination angles of O-2 molecules dramatically in accord with the experiment results. (C) 2007 Elsevier B. V. All rights reserved.
