Understanding Correlation Between CO2 Insertion Mechanism and Chain Length of Diamine in Metal‐Organic Framework Adsorbents

Although CO2 insertion is a predominant phenomenon in diamine‐functionalized Mg2(dobpdc) (dobpdc4−=4,4‐dioxidobiphenyl‐3,3′‐dicarboxylate) adsorbents, a high‐performance metal‐organic framework for capturing CO2, the fundamental function of the diamine carbon chain length in the mechanism remains un...

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Published inChemSusChem Vol. 14; no. 11; pp. 2426 - 2433
Main Authors Ju, Susan E., Choe, Jong Hyeak, Kang, Minjung, Kang, Dong Won, Kim, Hyojin, Lee, Jung‐Hoon, Hong, Chang Seop
Format Journal Article
LanguageEnglish
Published Weinheim Wiley Subscription Services, Inc 08.06.2021
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Summary:Although CO2 insertion is a predominant phenomenon in diamine‐functionalized Mg2(dobpdc) (dobpdc4−=4,4‐dioxidobiphenyl‐3,3′‐dicarboxylate) adsorbents, a high‐performance metal‐organic framework for capturing CO2, the fundamental function of the diamine carbon chain length in the mechanism remains unclear. Here, Mg2(dobpdc) systems with open metal sites grafted by primary diamines NH2−(CH2)n−NH2 were developed, with en (n=2), pn (n=3), bn (n=4), pen (n=5), hn (n=6), and on (n=8). Based on CO2 adsorption and IR results, CO2 insertion is involved in frameworks with n=2 and 3 but not in systems with n≥5. According to NMR data, bn‐appended Mg2(dobpdc) exhibited three different chemical environments of carbamate units, attributed to different relative conformations of carbon chains upon CO2 insertion, as validated by first‐principles density functional theory (DFT) calculations. For 1‐hn and 1‐on, DFT calculations indicated that diamine inter‐coordinated open metal sites in adjacent chains bridged by carboxylates and phenoxides of dobpdc4−. Computed CO2 binding enthalpies for CO2 insertion (−27.8 kJ mol−1 for 1‐hn and −20.2 kJ mol−1 for 1‐on) were comparable to those for CO2 physisorption (−19.3 kJ mol−1 for 1‐hn and −20.8 kJ mol−1 for 1‐on). This suggests that CO2 insertion is likely to compete with CO2 physisorption on diamines of the framework when n≥5. A question of length: A correlation between CO2 insertion mechanism and the carbon chain length of diamine NH2−(CH2)n−NH2 in the Mg2(dobpdc) (dobpdc4−=4,4‐dioxidobiphenyl‐3,3′‐dicarboxylate) system is established. Results suggest that CO2 insertion is likely to compete with CO2 physisorption on diamines of the framework when n≥5.
Bibliography:These authors contributed equally to this work.
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ISSN:1864-5631
1864-564X
DOI:10.1002/cssc.202100582