TY - JOUR
T1 - Chemical and thermal stability of isotypic metal-organic frameworks
T2 - Effect of metal ions
AU - Kang, In Joong
AU - Khan, Nazmul Abedin
AU - Haque, Enamul
AU - Jhung, Sung Hwa
PY - 2011/5/27
Y1 - 2011/5/27
N2 - Chemical and thermal stabilities of isotypic metal-organic frameworks (MOFs) like Al-BDC (Al-benzenedicarboxylate called MIL-53-Al), Cr-BDC (MIL-53-Cr) and V-BDC (MIL-47-V), after purification to remove uncoordinated organic linkers, have been compared to understand the effect of the central metal ions on the stabilities of the porous MOF-type materials. Chemical stability to acids, bases, and water decreases in the order of Cr-BDC>Al-BDC>V-BDC, suggesting stability increases with increasing inertness of the central metal ions. However, thermal stability decreases in the order of Al-BDC>Cr-BDC> V-BDC, and this tendency may be explained by the strength of the metal-oxygen bond in common oxides like Al2O 3, Cr2O3, and V2O5. In order to evaluate precisely the stability of a MOF, it is necessary to remove uncoordinated organic linkers that are located in the pores of the MOF, because a filled MOF may be more stable than the same MOF after purification.
AB - Chemical and thermal stabilities of isotypic metal-organic frameworks (MOFs) like Al-BDC (Al-benzenedicarboxylate called MIL-53-Al), Cr-BDC (MIL-53-Cr) and V-BDC (MIL-47-V), after purification to remove uncoordinated organic linkers, have been compared to understand the effect of the central metal ions on the stabilities of the porous MOF-type materials. Chemical stability to acids, bases, and water decreases in the order of Cr-BDC>Al-BDC>V-BDC, suggesting stability increases with increasing inertness of the central metal ions. However, thermal stability decreases in the order of Al-BDC>Cr-BDC> V-BDC, and this tendency may be explained by the strength of the metal-oxygen bond in common oxides like Al2O 3, Cr2O3, and V2O5. In order to evaluate precisely the stability of a MOF, it is necessary to remove uncoordinated organic linkers that are located in the pores of the MOF, because a filled MOF may be more stable than the same MOF after purification.
KW - chemical stability
KW - metal-organic frameworks
KW - oxides
KW - thermal stability
KW - thermochemistry
UR - http://www.scopus.com/inward/record.url?scp=79958192781&partnerID=8YFLogxK
U2 - 10.1002/chem.201100316
DO - 10.1002/chem.201100316
M3 - Article
AN - SCOPUS:79958192781
SN - 0947-6539
VL - 17
SP - 6437
EP - 6442
JO - Chemistry - A European Journal
JF - Chemistry - A European Journal
IS - 23
ER -