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- biomembrane nanotube 生物膜纳米管
- The nanotube will form the insulating core of the nanoelectrode. 纳米管将成为纳米电极的绝缘核心。
- Then a method to make the carbon nanotube disperse is found. 并找到了使其均匀分散的一种方法。
- This can be achieved by simply squashing the nanotube. 这种转变可以通过对碳纳米管施加单轴应力使之变形而实现。
- In 1991, carbon nanotube (CNT) was first reported in Nature by Iijima. 1991 年,日本电镜专家 Iijima 在制取 C60的残余物中,发现一种结构独特的管状单质炭,即碳纳米管(carbon nanotube,CNT)。
- The titania nanotube was characterized by XRD,TEM,BET,TG-DSC and Uv-vis. 用XRD、TEM、BET、TG-DSC、Uv-vis等方法对TiO2纳米管的形貌、成分和性能进行了表征。
- Nanotube researchers are also continually breaking new ground.Prabhakar R. 奈米管研究人员也在持续开辟新天地。
- Water soluble multiwall carbon nanotube has good dispersiveness and stability. 采用柠檬酸钠还原氯金酸制备了金水溶胶,研究了影响金纳米粒子的粒径的相关因素。
- Watson Research Center,built the world's first logic circuit out of a single long carbon molecule called a nanotube. 该公司托马斯·沃森研究中心的物理学家造出全世界第一个以纳米管(一个长长的碳分子)为原料的逻辑电路。
- Nanotube bio-technology has become the frontier and hot issue in nano-technology. 纳米管生物技术已经成为纳米技术领域的前沿和热点。
- Objective:To study the effectiveness of direct pulp capping with biomembrane of berberine compound in minipigs. 目的:研究应用黄连素复合生物膜对小型猪牙行直接盖髓术的作用。
- PTD-kallikrein can pass through the biomembrane and BBB efficiently and itself has no obviously biotoxicity. 2. PTD-kallikrein对缺糖、缺氧再复糖、复氧条件下培养的神经元及大鼠MCAO模型缺血再灌注损伤均有一定的保护作用;
- Result: Reparative dentin under the biomembrane in opened area was observed in the tested teeth. 结果: 4 个术后不同时期的牙在穿髓孔处均有不同程度的修复性牙本质形成。
- The success of dental implant depend on the using of bone substitute material and biomembrane in great extent. 种植义齿的成功很大程度上倚赖骨替代材料和生物膜的应用,材料学的发展使骨替代材料的各方面性能更加优越。
- It suggests the difficulty of the PLC induced membrane fUsion of natural biomembrane. 提示PLC不易诱导天然细胞膜的融合。
- AIM: To investigate the hemostatic effect and biocompatibility of RT-Q-remedial biomembrane. 摘要目的:研究RT-Q医用生物膜(以下简称RT-Q膜)的术中局部止血作用及其生物相容性。
- Conclusion:Biomembrane of berberine compound may be an effective direct pulp capping materia. 结论:黄连素复合生物膜对小型猪牙有良好的直接盖髓作用。
- The positive nanocapsule can interact with the negative biomembrane, resulting in targeted delivery on specific sites. 带正电的奈米胶囊,可与带负电的生物膜交互作用,而达到特定位置之标靶投药。
- The reactive ability of free radical is so strong that it can assail to lipid、 protein of biomembrane and tissue. 由于其电子是不成对的,所以自由基的反应能力特别强,可以攻击生物膜和组织的脂质、蛋白质。
- Objective To evaluate the effect of chitosan biomembrane on the rabbit filter surgery. 摘要目的评价合成的几丁聚糖生物膜对兔眼滤过术后滤过通道的作用。