LiCoO2中锂离子固相扩散系数随循环次数的变化

The solid diffusion coefficient of lithium-ion in LiCoO₂ cathode material has been investigated by the capacity intermittent titration technique (CITT) at different voltages and at different charge/discharge cycles. By SEM, XRD and FTIR techniques, the structure of LiCoO₂ was studied before and after charge-discharge cycles, and the relationship between solid diffusion coefficient and crystal structure was further discussed. CITT results show that the value of Li⁺ solid diffusion coefficient of LiCoO₂ is about 10^-12 cm²·s^-1. During the whole charge-discharge cycles, the Li⁺ solid diffusion coefficient decreased within the voltage of 4.0～4.3 V, which is attributed to the change of the structure of LiCoO₂.     

多硫二硫醇烯配合物[Ni(C5S9)2]电磁学性能的研究

多硫 1 ,2 二硫醇烯能与过渡金属离子形成具有特殊平面共轭结构的稳定配合物 ,是构成有机导体或超导体的基本“砖块”[1,2 ] 。配合物的晶体结构研究表明 ,分子之间通过Ｓ…Ｓ原子ｐ轨道的重叠而存在的超分子相互作用是配合物具有高导电性的一个重要特征[3 ] 。增加分子间超分子相互作用的一个有效方法是增加配体上硫原子的个数。我们以Ｃ6Ｓ10 (图 1 )为中间体得到Ｃ5Ｓ2 -9(图2 ) ,与Ｎｉ2 + 离子配位后在四种不同阳离子作用下生成 (Ｃａｔ)2 [Ｎｉ(Ｃ5Ｓ9)2 ]型二价阴离子配合物。当这些配合物用Ｉ2 氧化时都生成了中性配位化合物 [Ｎｉ…     

Current Trend in Synthesis,Post‐Synthetic Modifications and Biological Applications of Nanometal‐Organic Frameworks (NMOFs)

Since the early reports of MOFs and their interesting properties, research involving these materials has grown wide in scope and applications. Various synthetic approaches have ensued in view of obtaining materials with optimised properties, the extensive scope of application spanning from energy, gas sorption, catalysis biological applications has meant exponentially evolved over the years. The far‐reaching synthetic and PSM approaches and porosity control possibilities have continued to serve as a motivation for research on these materials. With respect to the biological applications, MOFs have shown promise as good candidates in applications involving drug delivery, BioMOFs, sensing, imaging amongst others. Despite being a while away from successful entry into the market, observed results in sensing, drug delivery, and imaging put these materials on the spot light as candidates poised to usher in a revolution in biology. In this regard, this review article focuses current approaches in synthesis, post functionalization and biological applications of these materials with particular attention on drug delivery, imaging, sensing and BioMOFs.     

Synthesis and Characterization of ChiralLiquid Crystal CMPPCDP

ＳｙｎｔｈｅｓｉｓａｎｄＣｈａｒａｃｔｅｒｉｚａｔｉｏｎｏｆＣｈｉｒａｌＬｉｑｕｉｄＣｒｙｓｔａｌＣＭＰＰＣＤＰＴＩＡＮＹａｎ－ｑｉｎｇ，ＺＨＡＯＹｉｎｇ－ｙｉｎｇ，ＳＵＦｅｎｇ－ｙｕａｎｄＴＡＮＧＸｉｎ－ｙｉ（ＤｅｐａｒｔｍｅｎｔｏｆＣｈｅｍｉｓｔ...     

二水·2-羰基丙酸水杨酰腙合铜(Ⅱ)配合物的晶体结构及生物活性

在水中,以2-羰基丙酸水杨酰腙与硫酸铜反应,制得新配合物Cu(C₁₀H₈N₂O₄)(H₂O)₂(C₁₀H₈N₂O₄^2-为2-羰基丙酸水杨酰腙负离子),并以水为溶剂培养了单晶,测试了晶体结构,该单晶为深绿色,属单斜晶系,空间群为C2/c,晶胞参数a=1.1297(1)nm,b=0.9824(8)nm,c=2.1973(3)nm,β=91.91(8)°,V=2.43749(8)nm³,Z=8,μ=1.817mm^-1,D_c=1.743Mg·m^-3,F(000)=1304,R=0.0264,wR=0.0654,GOF=1.052。其测试结果表明在配合物中Cu²⁺处于五配位的四方锥配位环境,配位原子分别来自1个三齿配体2-羰基丙酸水杨酰腙负二价离子的2个O原子和1个N原子,2个水分子中的O原子,其中1个水分子的O原子处于四方锥的锥顶,锥底的配位原子基本处于同一平面上。对该配合物所作的皿内抑菌试验和盆栽活体实验表明,配合物对小麦条锈病、白菜黑斑病及辣椒疫霉菌等分别有96%、89%、100%的抑制率,且有一定的助长作用。     

电子俘获材料Zn_4B_6O_(13)∶Dy~(3+)的热释光特性研究

通过高温固相扩散反应合成了稀土元素镝掺杂的 Zn4 - x B6 O1 3∶ x Dy3+ 磷光体 .测定了该化合物在高能6 0 Co伽玛射线辐照下的热释发光曲线和三维热释光谱 .三维热释光谱表明 ,位于大约 480 nm和 5 80 nm的发光谱带来自于 Dy3+ 离子的 f-f 跃迁 .基质中掺杂的 Dy3+ 离子浓度的变化能够改变陷阱的相对分布 ,随着Dy3+浓度的增加 ,发光峰温向高温方向移动 ,这可提高剂量器的热稳定性 .当辐照剂量增加时 ,发光峰温亦向高温方向移动 ,即陷阱加深 .确定了 Zn3.86 B6 O1 3∶ 0 .1 6Dy3+样品主峰的陷阱深度 E=0 .73 e V,频率因子S=2 .43× 1 0 9s- 1 .在 1～ 1 0 0 Gy治疗级范围内 ,Zn3.86 B6 O1 3∶ 0 .1 6Dy3+ 对 6 0 Co伽玛射线辐照的热释光剂量响应呈良好的线性关系 .实验结果表明 ,Zn3.86 B6 O1 3∶ 0 .1 6Dy3+是一个潜在的应用于临床医疗的伽玛射线电离辐射热释光剂量计材料 .     

Saframycins 及Ecteinascidins化合物的合成研究进展

综述了两类双四氢异喹啉生物碱Saframycins和Ecteinascidins的合成研究进展. 分析了各合成路线的关键步骤, 部分讨论了各方法的优缺点, 并对其生物合成和作用机理作了简单介绍.     

[α-(2-氧代烷基)-α-(取代苯胺基)甲基苯基]-β-D-吡喃阿洛糖苷的合成及镇静活性研究

以豆腐果苷为原料, 通过Mannich反应与取代苯胺和脂肪酮共合成了七个豆腐果苷衍生物, 均未见文献报道. 其结构经¹H NMR, IR, MS和HRMS确认, 并进行了药理活性筛选. 结果表明, 部分化合物均具有良好的镇静活性. 其中, 化合物2a (200 mg/kg), 2b (200 or 100 mg/kg)和2e (200 mg/kg)与豆腐果苷相比较, 具有更强的疗效.     

β-环糊精键合滤纸的制备及在室温磷光分析中的应用

研究了β-环糊精修饰滤纸的制备方法及最佳制备条件，考察了修饰滤纸对16种有机物的室温磷光的增强效果，结果表明芴，苊，咔唑以及7，8-苯并喹啉的室温磷光信号有较大增强，与未修饰滤纸基质相比，4种化合物在修饰滤纸基质上的室温磷光检测灵敏度有了很大的改进。建立的方法用于水样中的咔唑和7，8-苯并喹啉的测定。     

Fibers and 3D mesh scaffolds from biodegradable starch-based blends: production and characterization

The aim of this work is the production of fibers from biodegradable polymers to obtain 3D scaffolds for tissue engineering of hard tissues. The scaffolds required for this highly demanding application need to have, as well as the biological and mechanical characteristics, a high degree of porosity with suitable dimensions for cell seeding and proliferation. Furthermore, the open cell porosity should have adequate interconnectivity for a continuous flow of nutrients and outflow of cell metabolic residues as well as to allow cell growth into confluent layers. Blends of corn starch, a natural biodegradable polymer, with other synthetic polymers (poly(ethylene vinyl alcohol), poly(epsilon-caprolactone), poly(lactic acid)) were selected for this work because of their good balance of properties, namely biocompatibility, processability and mechanical properties. Melt spinning was used to produce fibers from all the blends and 3D meshes from one of the starch-poly(lactic acid) blends. The experimental characterization included the evaluation of the tensile mechanical properties and thermal properties of the fibers and the compression stiffness, porosity and degradation behavior of the 3D meshes. Light microscopy picture of 3D meshes.