nanomaterials英文翻译_含义_读音_nanomaterials例句

一份报告说，纳米材料的日益流行正走在了试图理解其潜在危险的工作的前面。

Synthesis of nanomaterials by microemulsion is one of the most popular and important technologies nowadays.

微乳液法是制备纳米材料的重要方法，近年来得到了很大的发展和完善。

Initially, these would be aimed at measuring the human and environmental exposure to nanomaterials and their toxicity.

最初，这些可瞄准测量人和环境暴露于纳米材料和它们的毒性。

Iodine was found to be crucial for the formation of the silicon nitride nanomaterials at a relative low temperature. 2.

发现碘在我们低温制备氮化硅纳米材料的过程中起着关键的作用。

Just producing nanomaterials in quantities large enough for industrial applications is challenging and can be expensive.

仅仅是大量生产用于工业应用的纳米材料就是一种挑战，而且这可能很昂贵。

Dispersed technology of nanoparticle and preparation of hollow structural nanomaterials are the topic of nano-technology.

纳米颗粒的分散技术以及纳米空心结构材料的制备是当今纳米技术的研究热点。

The size of the market for nanomaterials is likely to be immense.

纳米材料市场似乎是无限大的。

The paper indicates that the keys of the sintering of nanomaterials in future are low-temperature , rapidity and restraint of grain growth.

指出以低温、快速、抑制晶粒生长为重点，乃是今后研究纳米粉末烧结的关键。

As a result, the optical information from the oxidation of analytes on the surfaces of nanomaterials can be used for analytes recognitions.

因此，样品分子在纳米材料表面发生催化反应所得到的发光信号可以提供分子的识别信息。

Coal as a carbon source will be a favorable option if a large-scale commercial process for carbon nanomaterials production can be developed.

煤是成本低廉且储量最丰富的碳源，将是大规模工业化生产纳米碳质材料最好的碳源之一。

The research of magnetic nanoparticles is one of the focus in the field of biomedical nanomaterials.

磁性纳米粒子是目前生物医用纳米材料领域异常活跃的研究方向之一。

Recently, the fabrication of nanomaterials by biomolecule method emerges as a hot field throughout the world.

当前在国外纳米材料领域中兴起了一个热门课题-生物分子法制备纳米材料。

With the production and popularity of nanomaterials, the occupational and environmental exposure is great increasing.

随着纳米材料规模化生产和普及，人群的职业接触和环境暴露的机会将大大增高。

Now a high tech era with a core of nanomaterials, nanoelectronics and anodic is appeared and won worldwide interests.

当前，在全球范围内，一个以纳米材料、纳米电子学和纳米医疗为核心的高科技时代已经来临。

Nanomaterials science is one of the scientific frontiers in the 21st century.

纳米材料科学是21世纪三大前沿学科之一。

Nanomaterials have excellent microwave absorbing properties owing to their special structures and unique physical and chemical properties.

由于纳米材料特殊的结构特征及其特殊的物理化学特性，使得纳米材料具有极好的吸波特性。

He adds that specific concerns arise about unknown toxicity of engineered nanomaterials and whether current laws can address them.

他还说某些担忧源于被改造的纳米材料的未知毒性以及当前的法律是否能解决这些问题。

Yet producing and using nanomaterials is practically unregulated, particularly in the developing world.

然而制造和使用纳米材料在实践中未受管制，特别是在发展中国家未受管制。

Nanomaterials, endowed with unique properties, bring new chance for early diagnosis and therapy of tumors and show a bright future.

具有独特性能的纳米材料为肿瘤早期诊断和治疗带来了新机遇，展示出诱人的前景。

The fine nanoparticles vapored by laser is translated into one-dimension nanomaterials by catalyst at high temperature.

认为准一维纳米材料是气相粒子在高温催化剂作用下生成的。

Meanwhile, technology for making water filters using nanomaterials for better absorption of contaminants has been taken up by several firms.

与此同时，利用纳米材料制造水过滤器从而更好地吸收污染物的技术已经被几家企业采用。

The method of avoiding agglomeration by ultrasonic cavitation is proposed to obtain ideal nanomaterials.

提出利用超声的空化作用来有效地防止团聚现象，以期得到理想的纳米材料。

The synthesis of CdS nanomaterials with unique properties has attracted much greater attention in recent years.

硫化镉纳米材料具有许多特异的性质，其合成方法研究近年来受到人们的青睐。

Their biggest challenge, as it is for any nanomaterials company is securing the first major account.

他们面临的最大挑战，也是所有纳米材料面临的挑战，就是拿下第一个大客户。

In this paper, the applications of nanomaterials in resin matrix ablation material are reviewed.

综述了纳米材料在树脂基烧蚀材料中的应用。

Nanomaterials have been applied extensively in electrochemical biosensing because of their excellent physical and chemical properties.

纳米材料因其优良的物理、化学性质，在生物电化学传感中得到了广泛应用。

Based on this phenomenon, an optical sensor array was developed with an array of different nanomaterials for analytes recognitions. 2.

根据这一现象，利用一组纳米催化材料设计了基于纳米材料表面化学发光的传感器阵列。

The effects of the composited lyotropic liquid crystal(LLC) and the true LLC templates on the structure of nanomaterials were reviewed.

主要综述了复合溶致液晶模板和真溶致液晶模板对于纳米材料结构的调控作用。

Therefore, the doped tin dioxide 1D nanomaterials are currently the research field of nanotechnology and an important research direction.

因此，关于二氧化锡一维纳米材料的掺杂研究也是目前纳米科技领域的一个重要研究方向。

Nanomaterials have good adsorbability because of their huge specific surface area, therefore in the foreground of environmental analysis.

纳米材料具有大的比表面积，拥有优良的吸附性能，因此在环境分析领域的应用逐渐增多。