Citation: WANG Wen-Qing, SHEN Xin-Chun, ZHANG Yu-Feng, NG Yan. Emergent Paramagnetism in D- and L-Alanine Crystals: Spin-Orbital Separation in Quasi-One-Dimensional N+H…O? Bonds[J]. Acta Physico-Chimica Sinica, ;2013, 29(07): 1396-1400. doi: 10.3866/PKU.WHXB201304163
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We investigated the field-dependent magnetic properties of chiral alanine crystals, especially associated with the electronic orbital motions. Based on the chirality of the zwitterionic model (+NH3-C(CH3)H-CO2-), and the helicity of the lattice structure of peptide bond in proteins, when an external field of +5 T was applied parallel to the preferred axis c(z) of the N+H…O- hydrogen bond in D-alanine, the electron spin-flip manifested emergent paramagnetism at 297.6 K. Because the spin magnetic dipole moment of hydrogen in L-alanine was originally aligned antiparallel to the field, the electron spins flipped firstly perpendicular to the field then manifested paramagnetism at 303.9 K. The magnetic field of 5 T split a degenerate energy level in the paramagnetic state of chiral alanine. Furthermore, the spin-orbital separation of the quasi-one dimensional N+H…O- hydrogen bond in the crystal lattice provided evidence for the hallmark of one-dimensional physics.
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