RESUMO
A mononuclar six-coordinate dysprosium complex was synthesized and structurally and magnetically characterized. X-ray structural analyses show trigonal-prismatic coordination geometry of the DyIII center. Slow relaxation of magnetization in the absence of a direct-current field and magnetic hysteresis up to 3.0 K could be observed, indicating its single-ion-magnet behavior. Arrhenius fitting and ab initio calculations suggest that the magnetic relaxation process may not occur through the Orbach process at high temperatures under the experimental conditions.
RESUMO
Flow-injection chemiluminescence was applied to determine the trace polyhydroxy phenol in environment (soil and water). Based on the comparison of several different chemiluminescence systems and optimization, an alkaline luminol-NaIO4 system for determinating polyhydroxy phenol was chosen. During the process of polyhydroxy phenol determination, the effect of dissolved humic acid (HA) on the determination of phenol by this chemiluminescence system was also considered, which generally coexists in soil and water widely. Thus the present work provided the reference for the determination of the real samples coming from soil or water. An obvious restraining effect of humic acid on the chemiluminescence signal obtained by the luminol-NaIO4-polyhydroxy phenol system was found, which shows a linear relationship with the concentration of HA in a certain range, the linear equation is y = 70.36x + 540.1, the correlation coefficient is 0. 9954, the linear range is between 3-15 mg x L(-1), the limitation of detection is 0.749 mg x L(-1), and the relative standard deviation (RSD) is 1.08% when the concentration of HA is 6 mg x L(-1). The possible working mechanism of humic acid here is discussed and deduced.