生物纳米技术是利用生物分子在纳米技术中的应用。
Bionanotechnology is the use of biomolecules for applications in nanotechnology.
随着诊断技术的进步和基因技术的完善,到2020年,利用生物纳米技术进行的迅速的生物鉴定将成为现实。
With advances in diagnostic techniques and gene technology to improve, by 2020, use of biological nano-technology for the rapid identification of the biological become a reality.
近年来,随着生物纳米技术、材料科学、电磁学等学科的飞速发展,纳米粒靶向治疗越来越引起广大学者的关注。
Recently, with the fasten development of biology nanotechnology, materials science and electromagnetism, many scholars pay more attention to the nanoparticle targeted therapy.
此讨论会主办的目的在于为行业用户和学术界提供一个普通的平台,聚焦生物单分子研究、纳米科学、纳米医学和生物纳米技术。
The workshop, which has been designed to provide a common platform for industry and academia, will focus on biological single-molecule research, nanoscience, nano-medicine and bio-nanotechnology.
比起应用于风能、水力发电、生物燃料或者核能,新材料学和纳米技术在太阳能领域的应用将为其成本降低提供更大的超出人们想像的可能性。
The application of new materials science and nanotechnology offers the possibility of cost reductions much larger than can be imagined in windpower or hydropower, in biomass or in nuclear power.
其主要应用方向包括考古学、生物学、医药、纳米技术等等。
Main directions are represented by archeology biology medicine nanotechnology etc.
干细胞、纳米技术、生物工程和医疗克隆已经应用于抗衰老医学的相关新领域。
Stem cells, nanotechnology, genetic engineering and therapeutic cloning are being used in the relatively new field of anti-aging medicine.
这其中包括20项国家级大工程项目,涵盖了启动开发纳米技术,生物与医药技术,高性能微处理器以及航天飞机等项目。
They include 20 state-driven megaprojects, including initiatives to develop nanotechnology, biotechnology and new drugs, high-end generic microchips, and aircraft.
并对未来进行了展望,预测了其在纳米技术、生物技术及三次采油等高新领域的应用前景。
The prospective future of geminis and the potential application of Gemini surfactants in the nanoscale technology, biotechnology and enhanced oil recovery have also been prognosticated.
本文从生物医学的众多技术之一——克隆技术,展望了纳米技术的应用前景。
This paper views the application perspective of nanotechnology in cloning technique which is one of the techniques of biomedicine.
随着生物技术、纳米技术和物理化学等多学科的飞速发展,磁性药物戡体的研究成为国内外导向药物领域的热门课题。
With rapid development of biotechnology, nano-technology and physical chemistry, research onthe magnetic drug carries becomes domestic and foreign important subject of magnetic drug delivery system.
采用纳米技术和生物微电子机械系统技术制备纳米多孔硅膜,可准确控制膜的厚度、几何形状、孔大小、孔分布和孔隙率。
Fabricating the nanoporous silicon membrane with nanotechnology and Bio-MEMS technology, the thickness of membrane, pore size and distribution, geometry shape and porosity can precisely controlled.
生物医学仪器,设备,传感器,人造组织,纳米技术。
Biomedical Instrumentation, Devices, Sensors, Artificial Organs, and Nano Technologies.
当代先进生产力是以生物技术、信息技术、纳米技术等为代表的高新技术。
The contemporary advanced productivity is the high technology, such as biotechnology, information technology, and nanometer technology.
日本一些增长最强劲的领域,包括生物技术和纳米技术,信息与通信技术和机器人。
Some of the strongest growth sectors in Japan include bio- and nanotechnology, information and communications technology and robotics.
主要包括天然材料、改性材料的吸附,生物吸附,硅微囊技术和纳米技术等。
The new methods mainly contain the adsorption of natural materials, modification materials, humic acids, biosorption, quod of silicon micro encapsulization and nanotechnology.
纳米技术与生物技术的融合,使纳米生物技术获得了很多重要的进展。
In recent years, the combination of nanotechnology and biotechnology made great important progress in nano biotechnology.
文章是将成熟的纳米技术与现代生物医药技术结合起来,开发新型纳米诊断试剂研究平台。
The paper was a mature nanotechnology, bio-medical technology and modem combine to develop new nano-diagnostics research platform.
从应用的角度出发,对金的纳米技术中的地位,包括纳米电子学、纳米粒子的催化和在生物医学中的作用进行了评价。
From the point of view of potential applications, the position of gold in nanotechnology, including nanoelectronics, nanoparticle catalysis and applications in medicine was reviewed.
一方面生物分子的尺度是纳米与亚纳米级的,纳米技术可以从生物科学学到许多生物分子作用的奥秘;
On one hand, sizes of biological molecules are within nano or sub-nano range, the development of nanotechnology can learn much from the secret of the mechanism of biological molecules.
新的学院将开设人工智能、纳米技术和生物技术等课程,并且在今年夏天敞开大门迎来首批30名学员。
The new institute will offer courses on artificial intelligence, nanotechnology and biotechnology, and is due to open its doors to its first class of 30 students this summer.
另一方面,纳米技术为生物学的研究提供新材料、新方法,使生物学研究可以多快好省地进行。
On the other hand, nanotechnology provides new materials and new methods for biological research, and enable biological research much more efficient.
摘要:纳米生物技术是纳米技术中的一个重要研究领域,在医学中有着广泛的应用前景。
ABSTRACT: Nanobiological technology is an important research field in nanotechnology and has extensive applications in medicine.
摘要:纳米生物技术是纳米技术中的一个重要研究领域,在医学中有着广泛的应用前景。
ABSTRACT: Nanobiological technology is an important research field in nanotechnology and has extensive applications in medicine.
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