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Theoretical Studies of 1,5-Sigmatropic Rearrangements Involving Group Transfer$^1$
IkChoon Lee,Bon Su Lee,Nam Doo Kim,Chang Kon Kim Korean Chemical Society 1992 Bulletin of the Korean Chemical Society Vol.13 No.5
The 1,5-sigmatropic rearrangements involving group (X) migration in ${\omega}$(X)-substituted 1,3-pentadiene, $C^1H_2=C^2H-C^3H=C^4H-C^5H_2-X$, where X = H, $CH_3$, $BH_2$, $NH_2$, OH or F, are investigated MO theoretically using the AM1 method. For the migrating groups without lone pair electrons, X = H, $CH_3$, or $BH_2$, the suprafacial pathway is favored, whereas for the migrating groups with lone pair electrons participating in the TS, $X=NH_2$, OH, or F, the antarafacial pathway is favored electronically. However excessive steric inhibition in the antarafacial TS for $X=NH_2$ leads to subjacent orbital controlled suprafacial process. The antarafacial shift of F is relatively disfavored compared to that of OH due to smaller orbital overlap and larger interfrontier energy gap in the TS.
Ikchoon Lee,Ok Ja Cha,Bon-Su Lee Korean Chemical Society 1990 Bulletin of the Korean Chemical Society Vol.11 No.1
The gas-phase thermolysis reactions of ${\alpha}$- and ${\beta}$-methylated ethyl formates, Y = $CH-X-CHR_1CH_2R_2$ where X = Y = O or S and $R_1\;=\;R_2$ = H or $CH_3$, are investigated theoretically using the AM1 method. The experimental reactivity order is reproduced correctly by AM1 in all cases. The thermolysis proceeds through a six-membered cyclic transition state conforming to a retro-ene reaction, which can be conveniently interpreted using the frontier orbital theory of three-species interactions. The methyl group substituted at $C_{\alpha}\;or\;C_{\beta}$ is shown to elevate the ${\pi}$-HOMO of the donor fragment (Y = C) and depress the ${\sigma}^{\ast}$-LUMO of the acceptor fragment ($C_{\beta}$-H), increasing the nucleophilicity of Y toward ${\beta}$-hydrogen which in turn increases the reactivity. The two bond breaking processes of the $C_{\alpha}$-X and $C_{\beta}$-H bonds are concerted but not synchronous so that the reaction takes place in two stages as Taylor suggested. The initial cleavage of $C_{\alpha}$-X is of little importance but the subsequent scission of $C_{\beta}$-H occurs in a rate determining stage.
Theoretical Studies on the A2 Hydrolysis of Methyl Acetimidate
Ikchoon Lee,Chang Kon Kim,Bon-Su Lee Korean Chemical Society 1990 Bulletin of the Korean Chemical Society Vol.11 No.3
Various mechanistic aspects of the A2 hydrolysis of methyl acetimidate were explored using the MNDO method. As in thecorresponding reactions of acetamide and methyl carbamate, a proton transfer pre-equilibrium exists between the N-protonated and the O-protonated tautomers, and the subsequent hydrolysis proceeds from the more stable N-protonated form. Of the two reaction pathways, the $A_{AL}2$ path is favored in the gas phase and in concentrated acid solutions, whereas the $A_{AC}2$ path is favored in less acidic solutions with a stable cationic tetrahedral intermediate formed in the rate determining step. Negative charge development on the alkoxy oxygen in the transition state suggested a rate increase with the increase in the electron withdrawing power of the alkoxy group. Calculations on the reaction processes with AM1 indicated that MNDO is more reliable in this type of work, although AM1 is better than MNDO in reproducing hydrogen bonds.
Ikchoon Lee,Chul Hyun Kang,Pyoung Sam Park,Hai Whang Lee Korean Chemical Society 1991 Bulletin of the Korean Chemical Society Vol.12 No.3
Kinetic studies of the reactions of benzyl benzenesulfonates with benzylamines in methanol and acetonitrile have been carried out. The reaction was found to proceed by a dissociative $S_N2$ in MeCN but by an associative $S_N2$ mechanism in MeOH. The transition state was rather loose in MeCN whereas it was tight in MeOH, in contrast to a tighter TS in MeCN for the corresponding reactions with aniline. The reaction of benzylamine in MeOH was characteristic of the highly solvated nucleophile, benzylamine, compared to the normal reaction in MeCN.
Orbital Interactions in$ BeC_{2}H_{2}\;and\;LiC_{2}H_{2}$ Complexes
Ikchoon Lee,Jae Young Choi Korean Chemical Society 1993 Bulletin of the Korean Chemical Society Vol.14 No.1
Ab initio calculations are carried out at the 6-311G$^{**}$ level for the $C_{2v}$ interactions of Be and Li atoms with acetylene molecule. The main contribution to the deep minima on the $^3B_2\;BeC_2H_2\;and\;^2B_2 LiC_2H_2$ potential energy curves is the b_2\;(2p(3b_2)-l{\pi}_g^*(4b_2))$ interaction, the $a_1\;(2s(6a_1)-I{\pi}_u(5a_1))$ interaction playing a relatively minor role. The exo deflection of the C-H bonds is basically favored, as in the $b_2$ interaction, due to steric crowding between the metal and H atoms, but the strong in-phase orbital interaction, or mixing, of the $a_1$ symmetry hydrogen orbital with the $5a'_1,\;6a'_1,\;and\;7a'_1$ orbitals can cause a small endo deflection in the repulsive complexes. The Be complex is more stable than the Li complex due to the double occupancy of the 2s orbital in Be. The stability and structure of the $MC_2H_2$ complexes are in general determined by the occupancy of the singly occupied frontier orbitals.
MO Theoretical Studies on the Benzylic and Resonance Shunt Effects
Ikchoon Lee,Jeong Ki Cho,Chang Kon Kim Korean Chemical Society 1991 Bulletin of the Korean Chemical Society Vol.12 No.2
The reactions of aniline with benzyl and phenacyl compounds are studied by the AM1 method. Two types of modeling were adopted: Cation-neutral, in which a proton is attached to the leaving group F and anion-neutral model, in which aniline was replaced by phenoxide with Cl as the leaving group. The cation-neutral model represented the reactvery well, reproducing the various solution-phase experimental results. In the benzyl system, the ${\pi}$-electrons of the two rings (X-ring in the nucleophile and Y-ring in the substrate) interact conjugatively in the transition state (TS) resulting in a bond contraction of the $C_{\alpha}-C_{Y1}$ bond (benzylic effect), whereas in the phenacyl system the ${\pi}$ electrons of the X-ring delocalizes more efficiently into the carbonyl group than into the Y-ring (resonance shunt effect) with a bond contraction of the $C_{\alpha}-C_{\beta}$ bond. The bond contraction in the benzylic effect was substantially greater than that in the resonance shunt effect. The TS was rather loose for benzyl while it was tighter for phenacyl system. Various bond length changes with substituents in the TS were, however, found to be irregular.
Kinetic Studies on Halogen Exchanges of 2-Naphthylmethyl Chloride
Lee, Ikchoon,Yie, Jae-Eui,Kim, Wang-Ki,Lee, Kae-Soo Korean Nuclear Society 1976 Nuclear Engineering and Technology Vol.8 No.2
The halogen exchange reactions of 2-naphylmethyl chloride have been investigated in actone and acetonitrile. The results were in good accord with PMO theory and HSAB principle.