| 1. | The method was carried out by in situ synthesizing a conducting polymer in a porous polymer film and co - immobilizing biomolecule in the composite film
该方法的原理是:在一种多孔高分子膜中原位复合导电聚合物,并同时实现生物分子在聚合物复合膜中的固定。 |
| 2. | In this paper , monolayer , microemulsion and biomolecule were selected as the template to induce crystal growth of calcium oxalate . the effect factors of them were discussed
本文分别选择单分子膜、微乳液、生物分子作为模板诱导草酸钙晶体生长,并探讨了促进和抑制草酸钙晶体生长的因素。 |
| 3. | Investigating the interaction mechanism of metal or metal complex with biomolecule , such as dna , protein and amino acid , provides a starting point for the diagnosis of metal - induced human disease
金属及其配合物与dna 、蛋白质、氨基酸等生物分子的作用机理研究,是诊断和治疗由金属引起的疾病的重要环节。 |
| 4. | In this review , research progress in the past ten year in interaction mechanism of metal complex with biomolecule has been described and the new research methods and breakthrough have been summaried
本文对近十年来金属及其配合物与生物分子相互作用机理的研究进展进行了综述,并提出了该研究领域的新动向。 |
| 5. | Investigating the interaction mechanism of metal or metal complex with biomolecule , such as dna , protein and amino acid , provides a starting point for the diagnosis of metal - induced human disease
摘要金属及其配合物与dna 、蛋白质、氨基酸等生物分子的作用机理研究,是诊断和治疗由金属引起的疾病的重要环节。 |
| 6. | Based on the stability and biocompatibility of the qds , it is possible to make movies of long - term interaction of biological molecules in a living cell by tagging each biomolecule with different color of qds
基于量子点的稳定性和生物相容性,有可能通过标记不同颜色的量子点到不同的分子,观察它们在活细胞内的运动。 |
| 7. | 3 . using scanning tunnel microscopy ( stm ) to observe microcosmic change between biomolecule and gold particle on the surface of lsaw biosensor during the process of probe immobilization and hybridization , also the naked gold membrane
3 .利用扫描隧道显微镜观察传感器裸金膜表面、探针固定、核酸杂交过程中生物分子与金颗粒之间的微观变化。 |
| 8. | The mechanisms of energy loss in the process of heavy ion interaction with biomolecule are analyzed and discussed , the recent related research progresses arc reviewed and some future research directions are indicated
摘要对重离子与生物分子相互作用中能量损失的物理机制进行了分析和讨论,对现有电子能量损失的研究进展进行了评述,指出将要研究的方向。 |
| 9. | There are mang immobilization methods we can use directed or indirected . the use of sam in various fields of research is rapidly growing , a interesting work is based on the strong absorption of disulfides ( r - s - s - r ) , sulfides ( r - s - r ) or thiols ( r - sh ) on the gold surface . while integrating with the new improving in biomolecule immobilization , this thesis presents a theoretical and applied studies of several new piezoelectric immunosensors based on the au - s sams
通常将生物分子固定于石英晶体电极表面或石英晶体表面的惰性载体涂层主要有直接固定法和间接固定法,包括有硅烷化连接法,聚合物膜连接法,非特异性吸附蛋白间接固定法, lb膜技术,生物素-亲和素体系( bas )法以及自组装单分子层( sams )技术等等。 |
| 10. | These thin films exhibit physical properties different from those bulk crystals and per molecule . in particular , when some functional biomolecule was imbedded by way of covalence or noncovalence on the surface of the films , the films have many functions of biological membrane . these functions made supramolecular assembly technology have important application prospects
这种技术能够赋予该有机分子既有别于体材料又不同于单个分子的性质,特别是当在分子薄膜表面以共价或非共价的方式嵌入某种功能性的生物分子时,这种薄膜就会具有仿生膜的功能,这种功能使得超分子组装技术在生物传感器领域具有重要的应用前景。 |
