Continuous-wave single-crystal electron paramagnetic resonance of adsorption of gases to cupric ions in the Zn(II)-Doped Porous Coordination Polymer Cu2.965Zn0.035(btc)2

Friedlaender S, St Petkov P, Bolling F, Kultaeva A, Boehlmann W, Ovchar O, Belous AG, Heine T, Poeppl A (2016)

Publication Type: Journal article

Publication year: 2016

Journal

Journal of Physical Chemistry C American Chemical Society

Book Volume: 120

Pages Range: 27399-27411

Journal Issue: 48

DOI: 10.1021/acs.jpcc.6b09456

Abstract

Continuous-wave X-band electron paramagnetic resonance with dielectric resonators has successfully been applied to small single crystals of the metal-organic framework HKUST-1 and Cu2.965Zn0.035(btc)2 to investigate the structure of paddle-wheel building blocks with pure Cu/Cu and mixed Cu/Zn pairs. The local paramagnetic Cu²⁺ ion probes were used to identify the magnetic g and A tensor orientations with respect to the crystal axes. We were able to monitor changes in these tensor orientations by EPR at gas adsorption on MOFs for the first time. We explored the spectral simulations of the spin Hamilton parameters of the single crystals and found results similar to those in previous studies of powder samples, but moreover, the tensor orientations are influenced upon gas adsorption, which is represented by a distinct line broadening effect in the angular resolved single-crystal EPR spectra. The as-synthesized, dehydrated, carbon dioxide-adsorbed, carbon monoxide-adsorbed, methanol-adsorbed, and reactivated states have been analyzed to reveal the magnetic tensor orientations, and the direct coordination of the adsorbed gas to the Cu²⁺ ions along with consistent, corresponding DFT calculations allows us to predict an improved model for the mixed paddle-wheel structure upon the adsorption of gases to a paddle-wheel based on perturbations of the g and A principal axis orientations. Additionally, we analyzed a reversibly occurring background signal observable not only in Cu2.965Zn0.035(btc)2 but also in pure Cu3(btc)2 at very low temperatures.

Involved external institutions

Universität Leipzig

Germany (DE) National Academy of Sciences of Ukraine (NAN) / Національна академія наук України

Ukraine (UA)

How to cite

APA:

Friedlaender, S., St Petkov, P., Bolling, F., Kultaeva, A., Boehlmann, W., Ovchar, O.,... Poeppl, A. (2016). Continuous-wave single-crystal electron paramagnetic resonance of adsorption of gases to cupric ions in the Zn(II)-Doped Porous Coordination Polymer Cu2.965Zn0.035(btc)2. Journal of Physical Chemistry C, 120(48), 27399-27411. https://doi.org/10.1021/acs.jpcc.6b09456

MLA:

Friedlaender, Stefan, et al. "Continuous-wave single-crystal electron paramagnetic resonance of adsorption of gases to cupric ions in the Zn(II)-Doped Porous Coordination Polymer Cu2.965Zn0.035(btc)2." Journal of Physical Chemistry C 120.48 (2016): 27399-27411.

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