Determination of The Enthalpy of Formation of Three- and Eight- Membered Heterocyclic Ethers in Ideal Gas by Diffe-rent Theoretical Methods via Atomization Energy and Bond Separation Schemes

Enthalpies of formation for three- and eight- membered heterocyclic ethers (15 compounds) in gas state have been determined by different theoretical methods: levels of theory B3LYP/6-31g(d), MP2/6-31g(d) and chemical composite methods (Gn and CBS) via two approach’s: atomization energy (AE) and bond separations (BS). Median absolute deviations (MAD) and standard deviations (SD) of calculated values from experimental data have been determined for every using method’s. The bond separation method has the smallest MAD at most of theoretical methods in comparison to the atomization energy approach. The 6-31g(d,p) basis set doesn’t seen clear effect in the theoretical results.

Determination of The Enthalpy of Formation of Three- and Seven- Membered Heterocyclic Theoethers in Gas State by Different Theoretical Methods via Atomization Energy and Bond Separation Schemes

Enthalpy of formation for three- and seven- membered heterocyclic theoethers (11 compound) in gas state have been determined by different theoretical methods: compo-site methods (Gn, CBS) and two levels of theory B3LYP/6-31g(d) and MP2/6-31g(d) via two approaches: atomization energy (AE) and bond separation (BS). Median abs-lute deviations (MAD) and standard deviations (SD) of calculation values from experi-ment data have been determined for every used theoretical method. It has been observed that the bond separation approach produce lower value of MAD in most of the theoretical methods in comparison to the atomization energy approach; where the G3MP2 method produce lower value of MAD, while the deviations corresponding to the two levels of theory MP2/6-31g(d)//B3LYP/6-31g(d) and MP2/6-31g(d)//B3LYP /6-31g(d) is close to the deviations of the composite methods. The 6-31g(d,p) basic set doesn't show substantial effect in the theoretical results.

Theoretical Study of Diels -Alder Reactions of Furan and its some Derivatives with Maleic Anhydride in Gas Phase

The Diels - Alder reactions of furan and some derivatives with maleic anhydride have been studied using methods of density functional theory (DFT): B3LYP, B3PW91, MPW1PW91 and MPW1BPE with 6-31g(d) bases set and proceeding energy cor-relation at MP4 level of theory with same bases set. The results of this study showed that, for the Diels - Alder reaction of Furan and 2-methyl furan with maleic anhydride, the reaction of formation of exo-adduct proceeds under thermodynamical control, and the reaction of formation of endo-adduct proceeds under kinatic control, but for the 2-furylmethanol, 2- furylmethyl acetate and 2-furylmethyl benzoate, the reactions of formation of exo-adduct proceed under thermodynamical and kinetic controls. The MPW1BPE/6-31g(d) level of theory was advanced susceptible results by comparison with the reference experimental data; exactly for furan-maleic anhydride Diels - Alder reaction.

Theoretical Study of 1,3-Dipolar Cycloaddition Reaction of Aryl Azide and its Derivatives with Cyclohex-2-en-1 one in Gas State and with Different Solvents

The 1,3-dipolar cycloaddition of the aryl azide and some its of derivatives with cyclohex- 2-en-1-one was studied theoretically using different methods of Density Functional Theory (DFT): B3LYP, B3PW91, MPW1PBE, MPW1PW91 and M062X with the basic set 6-31g(d). Most of the used levels of theories provide closed results qualitatively, and the results of the level of theory M062X / 6-31g (d) show that these reactions in the gas state are spontaneously to form two products, but all the reactions are very slow and one of the products P1 is more spontaneous and faster than the other P2 , and when these reactions were studied with different solvents, it is found that solvents to have no actual effects on the rates of these reactions. The results of the level of theory M062X / 6-31g (d) indicate that the Gibbs free energy of the reactions for the substitutes of Aryl increases in negative values in order of 2,6-Cl, -4 NO2, 4-OCH3, 3-OCH3, 3-Cl, 2 -Cl, H-; i.e., the substitutes do not have a significant effect on the spontaneity of reactions compared to the substitute-H. It was observed that TS-P1 transition state energy for all substitutes was lower than TS-P2 transition state energy.

Theoretical Study of 1,3-Dipolar Cycloaddition Reaction of Aryl Azide and its Derivatives with Cinnamic Acid one in Gas State and with Different Solvents

The 1,3-dipolar cycloaddition of the aryl azide and some its of derivatives with cinnamic acid was studied theoretically using different methods of Density Functional Theory (DFT): B3LYP, B3PW91, MPW1PBE, MPW1PW91 and M062X with the basic set 6- 31g(d). Most of the used levels of theories provide closed results qualitatively, and the results of the level of theory M062X / 6-31g (d) show that these reactions in the gas state carried out spontaneously to form several stable energy products; the products P1 and P2 are most stable, but all the reactions are very slow and one of the products P1 is more spontaneous than P2 , but the formation reaction of P2 is faster. On the other hand, when these reactions were studied with different solvents, it is found that solvents to have no actual effects on the rates of these reactions.