中文摘要：

This paper calculates the five most stable conformers of serine with Hartree-Fock theory,density functional theory(B3LYP),M ller-Plesset perturbation theory(MP4(SDQ)) and electron propagation theory with the 6-311++G(2d,2p) basis set.The calculated vertical ionization energies for the valence molecular orbitals of each conformer are in agreement with the experimental data,indicating that a range of molecular conformations would coexist in an equilibrium sample.Information of the five outer valence molecular orbitals for each conformer is explored in coordinate and momentum spaces using dual space analysis to investigate the conformational processes,which are generated from the global minimum conformer Ser1 by rotation of C 2-C 3(Ser4),C 1-C 2(Ser5) and C 1-O 2(Ser2 and Ser3).Orbitals 28a,27a and 26a are identified as the fingerprint orbitals for all the conformational processes.

英文摘要：

This paper calculates the five most stable conformers of serine with Hartree-Fock theory, density functional theory （B3LYP）, Moller-Plesset perturbation theory （MP4（SDQ）） and electron propagation theory with the 6-311＋＋G（2d,2p） basis set. The calculated vertical ionization energies for the valence molecular orbitals of each conformer are in agreement with the experimental data, indicating that a range of molecular conformations would coexist in an equilibrium sample. Information of the five outer valence molecular orbitals for each conformer is explored in coordinate and momentum spaces using dual space analysis to investigate the conformational processes, which are generated from the global minimum conformer Serl by rotation of C2-C3 （Ser4）, C1 C2 （Ser5） and C1-O2 （Set2 and Ser3）. Orbitals 28a, 27a and 26a are identified as the fingerprint orbitals for all the conformational processes.