The rare earth complexes with EDTA, Ln(edta), show an unusual sequence of affinity for the anion exchangers. The sorption and chromatographic separation of Y 3+ for Nd 3+ complexes with EDTA was studied by ...The rare earth complexes with EDTA, Ln(edta), show an unusual sequence of affinity for the anion exchangers. The sorption and chromatographic separation of Y 3+ for Nd 3+ complexes with EDTA was studied by using the strongly basic gel and macroporous polyacrylate anion exchangers, Amberlite IRA 458 and Amberlite 958, and the weakly basic gel polyacrylate anion exchanger, Amberlite IRA 68. The investigations on sorption and separation of rare earth complexes with EDTA on the polyacrylate anion exchangers applied mainly in the environment protection so far indicate that they can be applied in anionexchange separation of lanthanide complexes with aminopolycarboxylic acids. It was shown that the weakly basic polyacrylate gel anion exchanger Amberlite IRA 68 is the most effective in purification of Y 3+ from Nd 3+ in comparison with the strongly basic anion exchangers of this type.展开更多
以湖南株洲污染土壤作为研究对象,研究了Na-EDTA、NH_4-EDTA、Ca-EDTA在不同浓度下对土壤中Cd的去除效果,确定出适合的浓度与淋洗剂;并采用氯型717阴离子交换树脂对土壤淋洗液中的EDTA-Cd络合物进行吸附与回收试验,主要方法流程如下:采...以湖南株洲污染土壤作为研究对象,研究了Na-EDTA、NH_4-EDTA、Ca-EDTA在不同浓度下对土壤中Cd的去除效果,确定出适合的浓度与淋洗剂;并采用氯型717阴离子交换树脂对土壤淋洗液中的EDTA-Cd络合物进行吸附与回收试验,主要方法流程如下:采用静态法考察了固液比、pH值、时间、温度对树脂吸附EDTA-Cd络合物的影响,确定最佳吸附条件;采用上柱吸附法研究了在不同流速下穿透曲线的变化,确定树脂的穿透点;选取Fe_2(SO_4)_3多价金属盐溶液作为再生剂,对树脂中的EDTA-Cd络合物进行动态洗脱回收,测定出洗脱曲线与体积.随后进行连续5次吸附洗脱试验,探究树脂的再生性与树脂中EDTA-Cd络合物的回收效果.结果表明,在浓度为2.5 mmol·L^(-1)时,Na-EDTA、NH_4-EDTA、Ca-EDTA溶液对土壤中的Cd具有较好的去除效果,其去除率分别为64.75%、66.11%、68.29%.另外,在静态吸附过程中,随着固液比增加,树脂对EDTACd的吸附效率减少,在pH值为5.6时,对EDTA-Cd络合物吸附效率达到93.53%,树脂达到吸附平衡所需的时间为30—45 min,最佳反应温度区间为25—35℃;在动态吸附回收过程中,当上柱流速为4 m L·min^(-1)时,树脂达穿透点所需EDTA-Cd络合溶液为650 m L;再生剂Fe_2(SO_4)_3的洗脱体积为60 m L,洗脱溶液与吸附EDTA-Cd络合物溶液的体积比例达到1∶10.经过连续5次吸附洗脱试验后,树脂对EDTA-Cd络合物的去除率和再生率分别达到76.64%—93.43%、75.65%—84.19%.利用氯型717阴离子交换树脂提取以及回收土壤淋洗液中EDTA-Cd络合物是可行的.展开更多
The title complex K [Gd~Ⅲ(edta)(H_2O)_3]·5H_2O was synthesized, where edta denotes ethylenediamine- tetraacetic acid. The crystal and molecular structure of the complex were determined by single-crystal X-ray st...The title complex K [Gd~Ⅲ(edta)(H_2O)_3]·5H_2O was synthesized, where edta denotes ethylenediamine- tetraacetic acid. The crystal and molecular structure of the complex were determined by single-crystal X-ray structure analysis. The crystal belongs to an orthorhombic crystal system and an Fdd2 space group. The complex anion [Gd~Ⅲ(edta)(H_2O)_3] has a pseudo-monocapped square antiprismatic nine-coordinate structure in which six coordinate atoms (two N and four O) are from an edta ligand and three water molecules coordinate to Gd~Ⅲ ion directly. It can be predicted that Gd~Ⅲ ion can also form a nine-coordinate complex with ttha (triethylenetetraminehexaacetic acid) li- gand, so the GdⅢ complex anion [Gd~?é¨(r)(Httha)]~£¨2-£(c) can supply a free non-coordinate carboxyl group (-C-CH_2COOH) used for molecular embellishment in some biological molecules to form a contrast agent of Magnetic Resonance Imagine (MRI) with targeting function.展开更多
The title complex was synthesised and its molecular and crystal structures were determined by single crystal X ray reflection structure analysis. The crystal data are as follows: K[In Ⅲ(EDTA)(H 2O)]·2H 2O (...The title complex was synthesised and its molecular and crystal structures were determined by single crystal X ray reflection structure analysis. The crystal data are as follows: K[In Ⅲ(EDTA)(H 2O)]·2H 2O (EDTA=ethylene diamine N, N, N′, N′ tetraacetate), Monoclinic, C c space group, a=0.9096(2) nm,b=1.1996(2) nm, c =1.5144(3) nm, β =99.40(3)°, V =1.6302(6) 3, Z =3, D c=1.498 g·cm -3 , μ =1.325 mm -1 , F (000)=726, R =0.0320 and R W=0.0903 for 2315 observed independent reflections. The complex anion [In Ⅲ(EDTA)(H 2O)] - has a seven coordinate pseudo pentagonal bipyramidal (PB D 5h ) structure, in which the EDTA serves as a hexadentate ligand with two N atoms and four O atoms and one water molecule (H 2O) directly coordinated to the central metal ion In Ⅲ as a seventh ligand. 〓〓展开更多
The crystal and molecular structures of K[Eu~Ⅲ(edta)(H_2O)_3]·3.5H_2O (H_4 edta=ethylenediaminetetraacetic acid) and K_4[Eu~~Ⅲ__2(Httha)_2]·13.5H_2O (H_6 ttha=triethylenetetraminehexaacetic acid) complexes...The crystal and molecular structures of K[Eu~Ⅲ(edta)(H_2O)_3]·3.5H_2O (H_4 edta=ethylenediaminetetraacetic acid) and K_4[Eu~~Ⅲ__2(Httha)_2]·13.5H_2O (H_6 ttha=triethylenetetraminehexaacetic acid) complexes were determined by single-crystal X-ray structure analyses. The crystal of K[Eu~Ⅲ(edta)(H_2O)_3]·3.5H_2O complex belongs to orthorhombic crystal system and Fdd2 space group. The crystal data are as follows: a=1.9849(6)nm, b=3.5598(11)nm, c=1.2222(4)nm, V=8.636(5)nm^3, Z=16, M=596.37, D_c=1.835 g·cm^(-3), μ=3.166 mm^(-1) and F(000)=4752. The final R and wR values are 0.0269 and 0.0692 for 2936 [I>2.0σ(I)] reflections, and 0.0317 and 0.0708 for all 7284 unique reflections, respectively. The [Eu~Ⅲ(edta)(H_2O)_3]-complex anion has a nine-coordinate pseudo-monocapped square antiprismatic structure in which the nine coordinate atoms, two N and seven O are from one edta ligand and three water molecules. The crystal of the K_4[Eu~Ⅲ_2(Httha)_2]·13.5H_2O complex belongs to monoclinic system and P2(1)/n space group. The crystal data are as follows: a=1.1337(3) nm, b=2.5753(6) nm, c=2.2138(6) nm, β=102.871(5)°, V=6.301(3) nm^3, Z=4, M=1682.33, D_c=1.773 g·cm^(-3), μ=2.339 mm^(-1) and F(000)=3404. The final R and wR are 0.0514 and 0.0906 for 11144 [I>2.0σ(I)] reflections, and 0.0976 and 0.1068 for all 26048 unique reflections, respectively. The complex molecule is composed of two close parts in structure. Every part around the Eu~Ⅲ ion in the [Eu~~Ⅲ__2(Httha)_2]^(4-) complex anion has a nine-coordinate structure with distorted monocapped square antiprismatic prism, in which the ttha ligand coordinates to one central Eu~Ⅲ ion with three N atoms and four O atoms and to the other Eu~Ⅲ ion with two O atoms.展开更多
The crystal and molecular structures of cydta (trans-1, 2-cyclohexanediaminetetraacetic acid) have been determined by single\|crystal X-ray structure analyses. The reasons that RE Ⅲ -edta and RE Ⅲ -cydta compl...The crystal and molecular structures of cydta (trans-1, 2-cyclohexanediaminetetraacetic acid) have been determined by single\|crystal X-ray structure analyses. The reasons that RE Ⅲ -edta and RE Ⅲ -cydta complexes select different coordinate structures were discussed and illustrated through the comparison of the molecular and crystal structures between edta and cydta, (NH_ 4 )\[Y Ⅲ (edta)(H_ 2 O)_ 3 \]\55H_ 2 O and (NH_ 4 )\[Y Ⅲ (cydta)(H_ 2 O)_ 2 \]\55H_ 2 O as well as (NH_ 4 )\[Gd Ⅲ (edta)(H_ 2 O)_ 3 \]\55H_ 2 O and (NH_ 4 )\[Gd Ⅲ (cydta) (H_ 2 O) _ 2 \]\55H_ 2 O complexes.展开更多
The crystal and molecular structures of the Na[Eu Ⅲ (edta) ( H2 O) 3] · 4H2O ( edta = ethylenediaminetetraacetic acid) and Na4[Eu2Ⅲ (Httha)2] · 10H2 O ( ttha = triethylenetetraminehexaacetic acid) complexe...The crystal and molecular structures of the Na[Eu Ⅲ (edta) ( H2 O) 3] · 4H2O ( edta = ethylenediaminetetraacetic acid) and Na4[Eu2Ⅲ (Httha)2] · 10H2 O ( ttha = triethylenetetraminehexaacetic acid) complexes were determined by single-crystal X-ray structure analyses.The crystal of Na[ EuⅢ (edta) (H2O)3] · 4H2O belongs to orthorhombic crystal system and Fdd2 space group.The crystal data are as follows: a = 1.9415 (15)nm, b = 3.544(3 )nm, c = 1.203(9)nm, V = 8.327(5)nm3, Z = 16, M = 589.27, Dc= 1.880 g· cm-3, μ= 3.108mm-1 and F(000) = 4704.The final R and wR values are 0.0312 and 0.0750 for 2091[I > 2.0σ (I)] reflections, and 0.0344and 0.0766 for all 3932 unique reflections, respectively.The[EuⅢ (edta) (H2O) 3] - anion has a nine-coordinate pseudo-monocapped square antiprismatic structure in which the nine coordinate atoms, two N and seven O, are from one edta ligand and three water molecules.The crystal of Na4[Eu2Ⅲ (Httha)2] · 10H2O belongs to orthorhombic system and Pccn space group.The crystal data are as follows: a = 2.610(3)nm, b = 2.089(3)nm, c = 2.239(3)nm, V =12.208 ( 28 ) nm3, Z = 8, M = 1548.92, Dc= 1.686g·cm-3,μ = 2.115 mm-1andF(000) = 6272.Thefinal R and wR are 0.0625 and 0.1091 for 9834[I > 2.0σ(I)] reflections, and 0.1608 and 0.1471 for all 37818 unique reflections, respectively.The whole complex molecule is composed of two close parts in which each one has a nine-coordinate structure with distorted monocapped square antiprismatic prism.The ttha ligand in the[Eu2Ⅲ (Httha)2] 4- anion coordinates to one Eu Ⅲ ion with three N atoms and four O atoms and to the other Eu Ⅲ ion with two O atoms.展开更多
The crystal and molecular structures of the Na[Gd Ⅲ(edta)(H_2O)_3]·5H_2O (edta=ethylenediaminetetraacetic acid) and Na_4[Gd Ⅲ(dtpa)(H_2O)]_2·14H_2O (dtpa=diethylenetriaminepentaacetic acid) complexes were ...The crystal and molecular structures of the Na[Gd Ⅲ(edta)(H_2O)_3]·5H_2O (edta=ethylenediaminetetraacetic acid) and Na_4[Gd Ⅲ(dtpa)(H_2O)]_2·14H_2O (dtpa=diethylenetriaminepentaacetic acid) complexes were determined by single-crystal X-ray structure analyses. The crystal of the Na[Gd Ⅲ(edta)(H_2O)_3]·5H_2O belongs to orthorhombic crystal system and Fdd2 space group. The crystal data are as follows: a =1.9424(7)nm,b =3.5496(12)nm,c =1.2125(4)nm,V =8.360(5)nm 3,Z =16,M =612.63,D _c=1.947 g·cm (-3),μ =3.274 mm (-1) and F (000)=4880. The final R and wR values are 0.0295 and 0.0677 for 3102 [ I>2.0σ(I) ] unique reflections,and 0.0328 and 0.0695 for all 8269 reflections,respectively. The [Gd Ⅲ(edta)(H_2O)_3]-complex anion has a nine-coordinate pseudo-monocapped square antiprismatic structure in which the nine coordinate atoms,two N and seven O are from one edta ligand and three coordinate water molecules. The crystal of the Na_4[Gd Ⅲ(dtpa)(H_2O)]_2·14H_2O belongs to monoclinic crystal system and P2(1)/n space group. The crystal data are as follows: a =1.4894(6)nm,b =1.7987(7)nm, c =1.9600(7)nm,β =99.496(7),V =5.179(3)nm3,Z=4,M =1471.44,D _c=1.841 g·cm (-3),μ =2.676 mm (-1) and F (000)=2872. The final R and wR are 0.0435 and 0.0979 for 8929 [ I>2.0σ(I) ] unique reflections,and 0.0820 and 0.1167 for all 20717 reflections,respectively. The total complex moleculue is composed of two close parts in structure. The [Gd Ⅲ(dtpa)(H_2O)] (2-) complex anion in the every part has a nine-coordinate structure with distorted monocapped square antiprismatic prism,in which the dtpa coordinates with central Gd Ⅲ ion acting as a octadentate ligand with three N atoms and five O atoms,and one water as the ninth ligand directly coordinates with central Gd Ⅲ ion.展开更多
Objective: Increasing the emergence of Metallo-β-lactamase (MBL) producing gram-negative bacteria and their dexterous horizontal transmission demands rapid and accurate detection. This study was conducted to determin...Objective: Increasing the emergence of Metallo-β-lactamase (MBL) producing gram-negative bacteria and their dexterous horizontal transmission demands rapid and accurate detection. This study was conducted to determine a suitable method to promptly detect MBL-producing gram-negative bacteria. Methods: A total of 103 gram-negative bacteria were identified from various clinical samples at a tertiary care hospital in Dhaka city. MBL producers were detected by two phenotypic methods, the Disk Potentiation Test (DPT) and the Double Disk Synergy Test (DDST) based on β-lactam chelator combinations where EDTA/SMA has been used as an inhibitor and Imipenem, Ceftazidime as substrates. Results: 103 isolates which were identified as Escherichia coli spp, Klebsiella spp, Pseudomonas spp, Acinetobacter spp, Proteus spp, Providencia spp were found to be multidrug-resistant in antibiogram test. Isolates showed complete resistance (100%) to Imipenem, Meropenem, and Amoxiclav. The highest carbapenem-resistant etiological agents were Acinetobacter spp 40 (38.8%) followed by Pseudomonas spp 27 (26.2%), Klebsiella spp 26 (25.2%), Escherichia coli 8 (7.8%), Proteus spp 1 (1%) and Providencia spp 1 (1%). DPT method detected significantly (p = 0.000009) a higher number of MBL-producers (Imipenem with 0.5 M EDTA n = 61, 59.2% & Ceftazidime with 0.5 M EDTA n = 56, 54.4%) compared to the DDST method (Imipenem -0.5 M EDTA n = 43, 41.7%, Imipenem – SMA n = 38, 36.9% & Ceftazidime -0.5 M EDTA n = 15, 14.6%). Conclusion: Pieces of evidence suggest that DPT is a more sensitive method than DDST and could be recommended for identifying MBL-producing bacteria in Bangladeshi hospitals for the proper management of patients, to reduce time constraints and treatment costs.展开更多
文摘The rare earth complexes with EDTA, Ln(edta), show an unusual sequence of affinity for the anion exchangers. The sorption and chromatographic separation of Y 3+ for Nd 3+ complexes with EDTA was studied by using the strongly basic gel and macroporous polyacrylate anion exchangers, Amberlite IRA 458 and Amberlite 958, and the weakly basic gel polyacrylate anion exchanger, Amberlite IRA 68. The investigations on sorption and separation of rare earth complexes with EDTA on the polyacrylate anion exchangers applied mainly in the environment protection so far indicate that they can be applied in anionexchange separation of lanthanide complexes with aminopolycarboxylic acids. It was shown that the weakly basic polyacrylate gel anion exchanger Amberlite IRA 68 is the most effective in purification of Y 3+ from Nd 3+ in comparison with the strongly basic anion exchangers of this type.
文摘以湖南株洲污染土壤作为研究对象,研究了Na-EDTA、NH_4-EDTA、Ca-EDTA在不同浓度下对土壤中Cd的去除效果,确定出适合的浓度与淋洗剂;并采用氯型717阴离子交换树脂对土壤淋洗液中的EDTA-Cd络合物进行吸附与回收试验,主要方法流程如下:采用静态法考察了固液比、pH值、时间、温度对树脂吸附EDTA-Cd络合物的影响,确定最佳吸附条件;采用上柱吸附法研究了在不同流速下穿透曲线的变化,确定树脂的穿透点;选取Fe_2(SO_4)_3多价金属盐溶液作为再生剂,对树脂中的EDTA-Cd络合物进行动态洗脱回收,测定出洗脱曲线与体积.随后进行连续5次吸附洗脱试验,探究树脂的再生性与树脂中EDTA-Cd络合物的回收效果.结果表明,在浓度为2.5 mmol·L^(-1)时,Na-EDTA、NH_4-EDTA、Ca-EDTA溶液对土壤中的Cd具有较好的去除效果,其去除率分别为64.75%、66.11%、68.29%.另外,在静态吸附过程中,随着固液比增加,树脂对EDTACd的吸附效率减少,在pH值为5.6时,对EDTA-Cd络合物吸附效率达到93.53%,树脂达到吸附平衡所需的时间为30—45 min,最佳反应温度区间为25—35℃;在动态吸附回收过程中,当上柱流速为4 m L·min^(-1)时,树脂达穿透点所需EDTA-Cd络合溶液为650 m L;再生剂Fe_2(SO_4)_3的洗脱体积为60 m L,洗脱溶液与吸附EDTA-Cd络合物溶液的体积比例达到1∶10.经过连续5次吸附洗脱试验后,树脂对EDTA-Cd络合物的去除率和再生率分别达到76.64%—93.43%、75.65%—84.19%.利用氯型717阴离子交换树脂提取以及回收土壤淋洗液中EDTA-Cd络合物是可行的.
文摘The title complex K [Gd~Ⅲ(edta)(H_2O)_3]·5H_2O was synthesized, where edta denotes ethylenediamine- tetraacetic acid. The crystal and molecular structure of the complex were determined by single-crystal X-ray structure analysis. The crystal belongs to an orthorhombic crystal system and an Fdd2 space group. The complex anion [Gd~Ⅲ(edta)(H_2O)_3] has a pseudo-monocapped square antiprismatic nine-coordinate structure in which six coordinate atoms (two N and four O) are from an edta ligand and three water molecules coordinate to Gd~Ⅲ ion directly. It can be predicted that Gd~Ⅲ ion can also form a nine-coordinate complex with ttha (triethylenetetraminehexaacetic acid) li- gand, so the GdⅢ complex anion [Gd~?é¨(r)(Httha)]~£¨2-£(c) can supply a free non-coordinate carboxyl group (-C-CH_2COOH) used for molecular embellishment in some biological molecules to form a contrast agent of Magnetic Resonance Imagine (MRI) with targeting function.
文摘The title complex was synthesised and its molecular and crystal structures were determined by single crystal X ray reflection structure analysis. The crystal data are as follows: K[In Ⅲ(EDTA)(H 2O)]·2H 2O (EDTA=ethylene diamine N, N, N′, N′ tetraacetate), Monoclinic, C c space group, a=0.9096(2) nm,b=1.1996(2) nm, c =1.5144(3) nm, β =99.40(3)°, V =1.6302(6) 3, Z =3, D c=1.498 g·cm -3 , μ =1.325 mm -1 , F (000)=726, R =0.0320 and R W=0.0903 for 2315 observed independent reflections. The complex anion [In Ⅲ(EDTA)(H 2O)] - has a seven coordinate pseudo pentagonal bipyramidal (PB D 5h ) structure, in which the EDTA serves as a hexadentate ligand with two N atoms and four O atoms and one water molecule (H 2O) directly coordinated to the central metal ion In Ⅲ as a seventh ligand. 〓〓
文摘The crystal and molecular structures of K[Eu~Ⅲ(edta)(H_2O)_3]·3.5H_2O (H_4 edta=ethylenediaminetetraacetic acid) and K_4[Eu~~Ⅲ__2(Httha)_2]·13.5H_2O (H_6 ttha=triethylenetetraminehexaacetic acid) complexes were determined by single-crystal X-ray structure analyses. The crystal of K[Eu~Ⅲ(edta)(H_2O)_3]·3.5H_2O complex belongs to orthorhombic crystal system and Fdd2 space group. The crystal data are as follows: a=1.9849(6)nm, b=3.5598(11)nm, c=1.2222(4)nm, V=8.636(5)nm^3, Z=16, M=596.37, D_c=1.835 g·cm^(-3), μ=3.166 mm^(-1) and F(000)=4752. The final R and wR values are 0.0269 and 0.0692 for 2936 [I>2.0σ(I)] reflections, and 0.0317 and 0.0708 for all 7284 unique reflections, respectively. The [Eu~Ⅲ(edta)(H_2O)_3]-complex anion has a nine-coordinate pseudo-monocapped square antiprismatic structure in which the nine coordinate atoms, two N and seven O are from one edta ligand and three water molecules. The crystal of the K_4[Eu~Ⅲ_2(Httha)_2]·13.5H_2O complex belongs to monoclinic system and P2(1)/n space group. The crystal data are as follows: a=1.1337(3) nm, b=2.5753(6) nm, c=2.2138(6) nm, β=102.871(5)°, V=6.301(3) nm^3, Z=4, M=1682.33, D_c=1.773 g·cm^(-3), μ=2.339 mm^(-1) and F(000)=3404. The final R and wR are 0.0514 and 0.0906 for 11144 [I>2.0σ(I)] reflections, and 0.0976 and 0.1068 for all 26048 unique reflections, respectively. The complex molecule is composed of two close parts in structure. Every part around the Eu~Ⅲ ion in the [Eu~~Ⅲ__2(Httha)_2]^(4-) complex anion has a nine-coordinate structure with distorted monocapped square antiprismatic prism, in which the ttha ligand coordinates to one central Eu~Ⅲ ion with three N atoms and four O atoms and to the other Eu~Ⅲ ion with two O atoms.
文摘The crystal and molecular structures of cydta (trans-1, 2-cyclohexanediaminetetraacetic acid) have been determined by single\|crystal X-ray structure analyses. The reasons that RE Ⅲ -edta and RE Ⅲ -cydta complexes select different coordinate structures were discussed and illustrated through the comparison of the molecular and crystal structures between edta and cydta, (NH_ 4 )\[Y Ⅲ (edta)(H_ 2 O)_ 3 \]\55H_ 2 O and (NH_ 4 )\[Y Ⅲ (cydta)(H_ 2 O)_ 2 \]\55H_ 2 O as well as (NH_ 4 )\[Gd Ⅲ (edta)(H_ 2 O)_ 3 \]\55H_ 2 O and (NH_ 4 )\[Gd Ⅲ (cydta) (H_ 2 O) _ 2 \]\55H_ 2 O complexes.
基金Project supported by the National Natural Science Foundation of China (20371023)
文摘The crystal and molecular structures of the Na[Eu Ⅲ (edta) ( H2 O) 3] · 4H2O ( edta = ethylenediaminetetraacetic acid) and Na4[Eu2Ⅲ (Httha)2] · 10H2 O ( ttha = triethylenetetraminehexaacetic acid) complexes were determined by single-crystal X-ray structure analyses.The crystal of Na[ EuⅢ (edta) (H2O)3] · 4H2O belongs to orthorhombic crystal system and Fdd2 space group.The crystal data are as follows: a = 1.9415 (15)nm, b = 3.544(3 )nm, c = 1.203(9)nm, V = 8.327(5)nm3, Z = 16, M = 589.27, Dc= 1.880 g· cm-3, μ= 3.108mm-1 and F(000) = 4704.The final R and wR values are 0.0312 and 0.0750 for 2091[I > 2.0σ (I)] reflections, and 0.0344and 0.0766 for all 3932 unique reflections, respectively.The[EuⅢ (edta) (H2O) 3] - anion has a nine-coordinate pseudo-monocapped square antiprismatic structure in which the nine coordinate atoms, two N and seven O, are from one edta ligand and three water molecules.The crystal of Na4[Eu2Ⅲ (Httha)2] · 10H2O belongs to orthorhombic system and Pccn space group.The crystal data are as follows: a = 2.610(3)nm, b = 2.089(3)nm, c = 2.239(3)nm, V =12.208 ( 28 ) nm3, Z = 8, M = 1548.92, Dc= 1.686g·cm-3,μ = 2.115 mm-1andF(000) = 6272.Thefinal R and wR are 0.0625 and 0.1091 for 9834[I > 2.0σ(I)] reflections, and 0.1608 and 0.1471 for all 37818 unique reflections, respectively.The whole complex molecule is composed of two close parts in which each one has a nine-coordinate structure with distorted monocapped square antiprismatic prism.The ttha ligand in the[Eu2Ⅲ (Httha)2] 4- anion coordinates to one Eu Ⅲ ion with three N atoms and four O atoms and to the other Eu Ⅲ ion with two O atoms.
文摘The crystal and molecular structures of the Na[Gd Ⅲ(edta)(H_2O)_3]·5H_2O (edta=ethylenediaminetetraacetic acid) and Na_4[Gd Ⅲ(dtpa)(H_2O)]_2·14H_2O (dtpa=diethylenetriaminepentaacetic acid) complexes were determined by single-crystal X-ray structure analyses. The crystal of the Na[Gd Ⅲ(edta)(H_2O)_3]·5H_2O belongs to orthorhombic crystal system and Fdd2 space group. The crystal data are as follows: a =1.9424(7)nm,b =3.5496(12)nm,c =1.2125(4)nm,V =8.360(5)nm 3,Z =16,M =612.63,D _c=1.947 g·cm (-3),μ =3.274 mm (-1) and F (000)=4880. The final R and wR values are 0.0295 and 0.0677 for 3102 [ I>2.0σ(I) ] unique reflections,and 0.0328 and 0.0695 for all 8269 reflections,respectively. The [Gd Ⅲ(edta)(H_2O)_3]-complex anion has a nine-coordinate pseudo-monocapped square antiprismatic structure in which the nine coordinate atoms,two N and seven O are from one edta ligand and three coordinate water molecules. The crystal of the Na_4[Gd Ⅲ(dtpa)(H_2O)]_2·14H_2O belongs to monoclinic crystal system and P2(1)/n space group. The crystal data are as follows: a =1.4894(6)nm,b =1.7987(7)nm, c =1.9600(7)nm,β =99.496(7),V =5.179(3)nm3,Z=4,M =1471.44,D _c=1.841 g·cm (-3),μ =2.676 mm (-1) and F (000)=2872. The final R and wR are 0.0435 and 0.0979 for 8929 [ I>2.0σ(I) ] unique reflections,and 0.0820 and 0.1167 for all 20717 reflections,respectively. The total complex moleculue is composed of two close parts in structure. The [Gd Ⅲ(dtpa)(H_2O)] (2-) complex anion in the every part has a nine-coordinate structure with distorted monocapped square antiprismatic prism,in which the dtpa coordinates with central Gd Ⅲ ion acting as a octadentate ligand with three N atoms and five O atoms,and one water as the ninth ligand directly coordinates with central Gd Ⅲ ion.
文摘Objective: Increasing the emergence of Metallo-β-lactamase (MBL) producing gram-negative bacteria and their dexterous horizontal transmission demands rapid and accurate detection. This study was conducted to determine a suitable method to promptly detect MBL-producing gram-negative bacteria. Methods: A total of 103 gram-negative bacteria were identified from various clinical samples at a tertiary care hospital in Dhaka city. MBL producers were detected by two phenotypic methods, the Disk Potentiation Test (DPT) and the Double Disk Synergy Test (DDST) based on β-lactam chelator combinations where EDTA/SMA has been used as an inhibitor and Imipenem, Ceftazidime as substrates. Results: 103 isolates which were identified as Escherichia coli spp, Klebsiella spp, Pseudomonas spp, Acinetobacter spp, Proteus spp, Providencia spp were found to be multidrug-resistant in antibiogram test. Isolates showed complete resistance (100%) to Imipenem, Meropenem, and Amoxiclav. The highest carbapenem-resistant etiological agents were Acinetobacter spp 40 (38.8%) followed by Pseudomonas spp 27 (26.2%), Klebsiella spp 26 (25.2%), Escherichia coli 8 (7.8%), Proteus spp 1 (1%) and Providencia spp 1 (1%). DPT method detected significantly (p = 0.000009) a higher number of MBL-producers (Imipenem with 0.5 M EDTA n = 61, 59.2% & Ceftazidime with 0.5 M EDTA n = 56, 54.4%) compared to the DDST method (Imipenem -0.5 M EDTA n = 43, 41.7%, Imipenem – SMA n = 38, 36.9% & Ceftazidime -0.5 M EDTA n = 15, 14.6%). Conclusion: Pieces of evidence suggest that DPT is a more sensitive method than DDST and could be recommended for identifying MBL-producing bacteria in Bangladeshi hospitals for the proper management of patients, to reduce time constraints and treatment costs.
