期刊
MOLECULAR PHYSICS
卷 -, 期 -, 页码 -出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/00268976.2023.2241927
关键词
CCSD(T); G4(MP2); helicenes; polycyclic aromatic hydrocarbons; >
We studied the relative stability of increasingly large helicenes using high-level G4(MP2) thermochemical protocol. The reaction [n]helicene + benzene → [n + 1]helicene + ethene was used to obtain the relative energies of [n]helicenes (n = 4-9). The results showed that the reaction energy converged to an asymptotic value of +22.4 kJ/mol for larger helicenes. In comparison, [n]acenes had a higher asymptotic reaction enthalpy of +56.8 kJ/mol. We also evaluated the performance of dispersion-corrected density functional theory (DFT) and semiempirical molecular orbital (SMO) methods. Most DFT methods had poor performance with root-mean-square deviations (RMSDs) above 10 kJ/mol. However, the advanced SMO methods, XTB and PM7, outperformed the DFT methods with RMSDs of 3.0 and 3.1 kJ/mol, respectively.
We investigate the relative stability of increasingly large helicenes at the CCSD(T) level via the high-level G4(MP2) thermochemical protocol. The relative energies of [n]helicenes (n = 4-9) are obtained via the following reaction: [n]helicene + benzene & RARR; [n + 1]helicene + ethene. This reaction conserves the number of sp(2)-hybridized carbons, the number of aromatic rings, and the helical structures on the two sides of the reaction. We show that the reaction energy converges to an asymptotic value of & UDelta;H-298 = + 22.4 kJ/mol for increasingly large helicenes. For comparison, for [n]acenes, the same reaction converges to a much higher asymptotic reaction enthalpy of & UDelta;H-298 = + 56.8 kJ/mol. This difference between the two asymptotic reaction enthalpies sheds light on the relative thermodynamic stability of increasingly large helicenes. We proceed to use the G4(MP2) reaction energies to evaluate the performance of dispersion-corrected density functional theory (DFT) and semiempirical molecular orbital (SMO) methods for the relative energies of [n]helicenes. Nearly all DFT methods perform poorly with root-mean-square deviations (RMSDs) above 10 kJ/mol. The best-performing DFT method, BLYP-D4, attains an RMSD = 5.2 kJ/mol. Surprisingly, the advanced SMO methods, XTB and PM7, outperform the DFT methods and result in RMSDs of 3.0 and 3.1 kJ/mol, respectively.
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