Conclusion the modification and the quantitative methods for-SH groups on magnetic particle surface provide potential application for biological and medical areas in the near future.
结论功能化磁性微粒表面巯基的修饰及定量测定,为其在生物及医学领域的应用奠定了基础。
Enhancement of PEEK by adding continuous fibre and short fibre, particle fillers, surface modification and blend with polymers were reviewed.
本文从纤维增强PEEK、颗粒填充PEEK、PEEK表面改性、与聚合物共混等方面综述了PEEK改性研究的进展情况。
In this thesis, the technology of preparing nanometer magnesia in PTM was further studied, and then surface modification of nanometer magnesia particle was discussed.
论文首先对沉淀转化法制备纳米氧化镁的工艺作了进一步研究,然后进行了纳米氧化镁表面改性技术的研究。
The effects of treatment agent kinds, treatment agent quantity, powder supply rate and particle size on superfine and surface modification are studied.
讨论了改性剂种类与用量、给料速度与给料粒度对改性与粉碎效果的影响。
The factors that influence the lymphatic uptake of liposomes, such as particle size, surface charge and surface modification with PEG, were investigated.
考察了脂质体粒径、表面电荷、表面PEG修饰对淋巴吸收效率影响。
Their optical properties can be easily tailored not only by changing the particle size, but also by suitable ions doping, structure fabrication and surface modification.
其光学性质不仅可以通过尺寸调节,还可以通过掺杂离子、结构构筑以及表面功能化来裁减。
Their optical properties can be easily tailored not only by changing the particle size, but also by suitable ions doping, structure fabrication and surface modification.
其光学性质不仅可以通过尺寸调节,还可以通过掺杂离子、结构构筑以及表面功能化来裁减。
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