Understanding Hysteresis in Carbon Dioxide Sorption in Porous Metal-Organic Frameworks

Sergey A Sapchenko; Marina O Barsukova; Rodion V Belosludov; Konstantin A Kovalenko; Denis G Samsonenko; Artem S Poryvaev; Alena M Sheveleva; Matvey V Fedin; Artem S Bogomyakov; Danil N Dybtsev; Martin Schröder; Vladimir P Fedin

doi:10.1021/acs.inorgchem.9b00016

Understanding Hysteresis in Carbon Dioxide Sorption in Porous Metal-Organic Frameworks

Inorg Chem. 2019 May 20;58(10):6811-6820. doi: 10.1021/acs.inorgchem.9b00016. Epub 2019 May 8.

Authors

Sergey A Sapchenko^{1

2

3}, Marina O Barsukova^{1

2}, Rodion V Belosludov⁴, Konstantin A Kovalenko^{1

2}, Denis G Samsonenko^{1

2}, Artem S Poryvaev^{2

5}, Alena M Sheveleva^{2

5}, Matvey V Fedin^{2

5}, Artem S Bogomyakov^{2

5}, Danil N Dybtsev^{1

2}, Martin Schröder³, Vladimir P Fedin^{1

2}

Affiliations

¹ Nikolaev Institute of Inorganic Chemistry, Siberian Branch of the Russian Academy of Sciences , 630090 , Novosibirsk, Russia.
² Novosibirsk State University , 630090 , Novosibirsk , Russia.
³ School of Chemistry , University of Manchester , Oxford Road , M13 9PL , Manchester , U.K.
⁴ Institute for Materials Research , Tohoku University , 980-8577 , Sendai , Japan.
⁵ International Tomography Center, Siberian Branch of the Russian Academy of Science , 630090 , Novosibirsk , Russia.

PMID: 31067041
DOI: 10.1021/acs.inorgchem.9b00016

Abstract

Two new isostructural microporous coordination frameworks [Mn₃(Hpdc)₂(pdc)₂] (1) and [Mg₃(Hpdc)₂(pdc)₂] (2) (pdc^2- = pyridine-2,4-dicarboxylate) showing primitive cubic (pcu) topology have been prepared and characterized. The pore aperture of the channels is too narrow for the efficient adsorption of N₂; however, both compounds demonstrate substantially higher uptake of CO₂ (119.9 mL·g^-1 for 1 and 102.5 mL·g^-1 for 2 at 195 K, 1 bar). Despite of their structural similarities, 2 shows a typical reversible type I isotherm for adsorption/desorption of CO₂, while 1 features a two-step adsorption process with a very broad hysteresis between the adsorption and desorption curves. This behavior can be explained by a combination of density functional theory calculations, sorption, and X-ray diffraction analysis and gives insights into the further development of new sorbents showing adsorption/desorption hysteresis.