Biomedical Instrumentation, Devices, Sensors, Artificial Organs, and Nano Technologies.
生物医学仪器,设备,传感器,人造组织,纳米技术。
Thee current research fields of the center are micro and nano fabrication technologies, micro and nano materials, and micro and nano systems.
中心的研究方向,主要从事微纳米加工技术、微纳米材料以及微纳米器件与系统的研究与应用,并为国内外产业及研究机构服务。
Nano-scale technologies, 100,000 times smaller than the width of a human hair, are now used in hundreds of ordinary items from car fuel lines, bed sheets and cosmetics.
奈米级的技术,比人类头发宽度还小10万倍,目前已用于数以百计的普通产品中,如汽车燃油管、床单以及化妆品。
At present, research in the area of the laser theory is mostly focused on single-atom lasers and their practical applications in photonics, nano and quantum technologies.
目前,人们主要集中对单原子激光的量子理论的研究,以及它们在光子学、纳米技术和量子信息技术中的实际应用。
Channeling atoms can be used to produce deposited nano-structure of high quality in laser-focused atomic deposition which is one of the technologies of laser manipulating atoms.
激光操纵原子技术之一的激光会聚原子沉积可以利用原子沟道化效应得到高质量的纳米级沉积结构。
In this paper, the application of nano-composite technologies in toughening PVC are reviewed.
主要综述了纳米复合技术在聚氯乙烯增韧改性中的应用研究状况。
Macro, micro and nano-scale technologies rely on scale-specific performance models, design methods and fabrication processes which may be used to engineer machines within a limited range of size.
巨观、微米和奈米尺度技术依赖于特定尺度的性能模型、设计方法和可用于有限范围大小的工程机械的制造过程。
It reviewed the research situation and applications of nano-technologies on toughening and modifying PVC in recent years.
综述了近年来纳米技术在聚氯乙烯增韧改性中的应用研究状况。
Now membrane ultrafiltration membrane treatment technologies, nano-filtration membrane and reverse osmosis membrane.
现在膜处理技术主要有超滤膜,纳米滤膜和反渗透膜。
The factors such as MMT and modifiers and compounding technologies produce a great impact on properties of MMT/PA6 nano-composites. This paper was discudded and reviewed at these points.
纳米复合材料的性能,受制备时所用蒙脱石原料、改性剂类型、复合工艺的影响较大,本文就此进行了讨论和评述。
The factors such as MMT and modifiers and compounding technologies produce a great impact on properties of MMT/PA6 nano-composites. This paper was discudded and reviewed at these points.
纳米复合材料的性能,受制备时所用蒙脱石原料、改性剂类型、复合工艺的影响较大,本文就此进行了讨论和评述。
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