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The microcalorimetric method was used to study the antibacterial activity of two newly synthesized Schiff basecompounds(H_2L~(3')and H_2L~3)on Escherichia coli,trying to obtain the action on both of multiplying bacteria andnon-multiplying bacteria at one experiment.The metabolic power-time curves of the bacteria treated with the com-pounds were obtained,and the thermokinetic parameters were analyzed,from which the antibacterial activities ofthese compounds were evaluated.The results showed that both of the two compounds have good activity on aerobicmultiplying metabolism of E.coli,with the value of IC_(50)75.8 and 168.8 mg/L respectively,but have not effectiveaction on fermentation metabolism of E.coli.The action of the compounds on the non-multiplying metabolism wasinvestigated by taking the heat output of E.coli in the stationary phase as the guideline of the activity.The value ofMSC_(50)(minimum stationary-cidal concentration 50)of them is 118 and 187.5 mg/L,respectively.So,H_2L~(3')hasstronger antibacterial action on E.coli than H_2L~3 either for multiplying bacteria or non-multiplying bacteria,andtheir activity on the aerobic multiplying bacteria of E.coli is mainly shown.It does strongly suggest that the calo-rimetric method should play an important role in the fight against the drug-resistant bacteria. 相似文献
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稀土元素分离检测技术新进展 总被引:3,自引:2,他引:3
对2003年以来稀土元素分离检测技术的新进展进行了评述,重点集中于各种新型分离技术、新型检测技术及其在稀土元素分析中的应用。对于离子液体、纳米材料、离子印迹聚合物等新型材料以及浊点萃取、膜萃取、毛细管电泳等新型技术在稀士元素分离中的应用进行了详细讨论,并对中子活化分析、等离子体原子发射光谱和等离子体质谱在稀土元素检测中的应用进行了综述,重点讨论了等离子体质谱技术的应用。在回顾稀土元素分离检测技术进展的同时,对其在未来几年的发展趋势进行了评述。 相似文献
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通过比较两种极性差异较大的基质2,5-二羟基苯甲酸(DHB)和2’,6’-二羟基苯乙酮(DHAP)按不同比例混合时,AngiotensinⅡ的基质辅助激光解析电离-傅立叶变换离子回旋共振质谱(MALDI-FT/ICRMS)谱图的不同,并结合基质-AngiotensinⅡ在不同结晶方式下的共结晶和基质晶体的扫描电镜照片,发现基质为10μmol/L DHB和15μmol/L DHAP以体积比4:1组成的混合物时,基质结晶为致密的层状结构,而以薄层法与AngiotensinⅡ生成的共结晶,AngiotensinⅡ在基质晶体上面形成分散的柱状小晶体,此时得到的MALDI-FT/ICRMS质谱图优于干滴法。 相似文献
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基于DFT-BS方法,在不同泛函方法和基组下研究μ-1,1叠氮、4-叠氮苯甲酸、溶剂共配的叠氮铜配合物[Cu2(4-aba)3(N3)3(CH3OH)3]2-的磁学性质。结果显示,在B2PLYP/TZVP水平下计算得到顺磁中心间的磁耦合常数为33.48 cm-1,与实验值33.80 cm-1最吻合,可准确描述其磁学性质。配合物[Cu2(4-aba)3(N3)3(CH3OH)3]2-的分子磁轨道主要贡献来自于顺磁中心Cu(1)、Cu(2)的3dx2-y2轨道、N3-离子的π型轨道、4-叠氮苯甲酸的π型轨道和溶剂甲醇氧原子的p轨道。在4-叠氮苯甲酸共配的叠氮铜配合物中引入共配溶剂水及醇类,随溶剂R基供电子效应的增加,反铁磁性部分对磁耦合常数的贡献减小,其磁耦合常数J值随之增大。 相似文献
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