30431-07-3Relevant academic research and scientific papers
Cubane, cuneane, and their carboxylates: A calorimetric, crystallographic, calculational, and conceptual coinvestigation
Roux, Maria Victoria,Davalos, Juan Z.,Jimenez, Pilar,Notario, Rafael,Castano, Obis,Chickos, James S.,Hanshaw, William,Zhao, Hui,Rath, Nigam,Liebman, Joel F.,Farivar, Behzad S.,Bashir-Hashemi
, p. 5461 - 5470 (2005)
This study is a multinational, multidisciplinary contribution to the thermochemistry of dimethyl1,4-cubanedicarboxylate and the corresponding isomeric, cuneane derivative and provides both structural and thermochemical information regarding the rearrangement of dimethyl 1,4-cubanedicarboxylate to dimethyl 2,6-cuneanedicarboxylate. The enthalpies of formation in the condensed phase at T = 298.15 K of dimethyl 1,4-cubanedicarboxylate (dimethyl pentacyclo-[4.2.0.0.0.0]octane-1,4-dicarboxylate) and dimethyl 2,6-cuneanedicarboxylate (dimethyl pentacyclo-[3.3.0.0.0.0]octane-2,6- dicarboxylate) have been determined by combustion calorimetry, ΔfH°m(cr)/kJ·mol-1 = -232.62 ± 5.84 and -413.02 ± 5.16, respectively. The enthalpies of sublimation have been evaluated by combining vaporization enthalpies evaluated by correlation-gas chromatography and fusion enthalpies measured by differential scanning calorimetry and adjusted to T = 298.15 K, Δcr gHm(298.15 K)/kJ·mol-1 = 117.2 ± 3.9 and 106.8 ± 3.0, respectively. Combination of these two enthalpies resulted in ΔfH°m(g., 298.15 K)/kJ·mol-1 of-115.4 ± 7.0 for dimethyl 1,4-cubanedicarboxylate and -306.2 ± 6.0 for dimethyl 2,6-cuneanedicarboxylate. These measurements, accompanied by quantum chemical calculations, resulted in values of ΔfHm(g, 298.15 K) = 613.0 ± 9.5 kJ·mol-1 for cubane and 436.4 ± 8.8 kJ·mol-1 for cuneane. From these enthalpies of formation, strain enthalpies of 681.0 ± 9.8 and 504.4 ± 9.1 kJ·mol-1 were calculated for cubane and cuneane by means of isodesmic reactions, respectively. Crystals of dimethyl 2,6-cuneanedicarboxylate are disordered; the substitution pattern and structure have been confirmed by determination of the X-ray crystal structure of the corresponding diacid.
