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- Keywords halloysite nanotubes;silica;NR;composite;reinforcement; 埃洛石纳米管;白炭黑;NR;复合材料;补强性能;
- halloysite nanotubes 埃洛石纳米管
- Currently, nanotubes cost $100 per gram. 现在,每克纳管的价格是100美元。
- We used DC arc discharge to synthesize carbon nanotubes. 在本论文中我们研究利用网印的技术来制做场发射显示器。
- Catalyst particles were found together with the BCN nanotubes. 在所有生成的BCN纳米管中含有催化剂颗粒 .
- The stability of TiO_2 nanotubes electrode is also evaluated. 本文还考察了TiO_2纳米管电极的稳定性。
- halloysite nanotube 埃洛石纳米管
- SEM suggested that the silica could promote the dispersion of halloysite. 扫描电镜(SEM)分析显示,埃洛石与白炭黑能相互促进分散。
- RAMAN SPECTRUM STUDY OF PHONON MODES FOR SINGLE WALL CARBON NANOTUBES ? 单层纳米碳管振动模的拉曼光谱研究
- The nanotubes were composed of silicon and small oxygen by the EDX spectrum. 通过EDX能谱测试,该结构主要为Si和少量氧组成;
- A new technique in SERS study on single walled carbon nanotubes is scribed. 介绍了一种碳纳米管表面增强散射的新方法。
- Multi-walled carbon nanotubes are purified by an improved wet-chemical method. 摘要采用改进的湿化学方法提纯多壁碳纳米管。
- Nanotubes can carry about 100 times the current that would destroy an ordinary electronic interconnector. 纳管能传送的电流比击穿普通电子互连器的电流大100倍。
- Nanotubes may be introduced commercially in the next few years -- first in niche applications and then perhaps in devices where silicon and nanotubes are mixed. 在今后几年中,纳管可能实现商品化,首先是范围很窄的专业应用,然后可能在硅与纳管混合的器件中应用。
- Nanotubes are creating in university physics departments and at places like IBM. 目前,在各大学的物理系和像IBM那样的公司都在制造纳管。
- Nanotubes are stronger than metal because the chemical bond holding them together is stronger. 纳管之所以比金属硬,是因为把碳原子连在一起的化学键更强。
- As pliant as silicon has been over the last half-century, carbon nanotubes have some significant advantages. 尽管硅在过去半个世纪里用途广泛,但碳纳米管拥有某些明显优势。
- As pliant as silicon has been over the last half-century,carbon nanotubes have some significant advantages. 尽管硅在过去半个世纪里用途广泛,但碳纳米管拥有某些明显优势。
- Nanotubes that break apart water molecules to liberate hydrogen can now do so more efficiently and could soon use the optical spectrum of sunlight. 能将水分子分解成氢的奈米管,现在分解效率更高,而且很快就可以使用到日光的可见光部份。
- Objective To study the determination of trace phenol in water using multi-wall carbon nanotubes(MWNT) film-coated glassy carbon electrode(GCE). 目的探讨应用多壁碳纳米管膜修饰电极测定环境水样中微量苯酚。
