buckytubes

简明释义

英[/ˈbʌkiˌtubz/]美[/ˈbʌkiˌtubz/]

n. 巴基管

英英释义

单词用法

同义词

反义词

例句

1.Both it and its descendants, so-called buckytubes, which are cylindrical molecules made of pure carbon, are still much admired, but they have not yet lived up to their promise.

富勒烯被发现时也曾被誉为神奇物质，它及其被称为巴克管的由纯碳组成的圆柱形分子衍生物，至今被人们所推崇，但是它们都没有达到人们所预期的高度。

2.Both it and its descendants, so-called buckytubes, which are cylindrical molecules made of pure carbon, are still much admired, but they have not yet lived up to their promise.

富勒烯被发现时也曾被誉为神奇物质，它及其被称为巴克管的由纯碳组成的圆柱形分子衍生物，至今被人们所推崇，但是它们都没有达到人们所预期的高度。

3.Researchers are exploring the use of buckytubes 巴基管 for lightweight structural applications in aerospace engineering.

研究人员正在探索将巴基管 巴基管 用于航空工程中的轻量结构应用。

4.The strength-to-weight ratio of buckytubes 巴基管 is unmatched by any other material.

与其他材料相比，巴基管 巴基管 的强度与重量比是无与伦比的。

5.In the field of medicine, buckytubes 巴基管 are being studied for drug delivery systems.

在医学领域，巴基管 巴基管 正在被研究用于药物传递系统。

6.The unique properties of buckytubes 巴基管 make them ideal for nanotechnology advancements.

由于巴基管 巴基管 的独特性质，它们非常适合纳米技术的进步。

7.Engineers are incorporating buckytubes 巴基管 into new composite materials for improved performance.

工程师正在将巴基管 巴基管 纳入新的复合材料中以提高性能。

作文

In the realm of nanotechnology and materials science, the term buckytubes refers to a fascinating class of cylindrical nanostructures that are derived from carbon. These structures are essentially elongated versions of fullerenes, which are molecules composed entirely of carbon, taking on a hollow sphere, ellipsoid, or tube shape. The unique properties of buckytubes make them a subject of intense research and development in various fields, including electronics, materials engineering, and medicine.The discovery of buckytubes has opened up new avenues for innovation due to their remarkable strength and lightweight characteristics. For instance, these nanostructures exhibit tensile strength that is significantly higher than that of steel, while being only a fraction of the weight. This exceptional strength-to-weight ratio makes buckytubes an attractive option for applications in aerospace and automotive industries, where reducing weight without compromising structural integrity is crucial.Moreover, buckytubes possess excellent electrical conductivity, which allows them to be utilized in the development of advanced electronic components. Researchers have been exploring the potential of buckytubes in creating faster and more efficient transistors, sensors, and even superconductors. Their ability to conduct electricity with minimal resistance could lead to significant advancements in the field of nanoelectronics, enabling the creation of smaller, more powerful devices.In addition to their mechanical and electrical properties, buckytubes also exhibit unique thermal conductivity. They can efficiently dissipate heat, making them suitable for use in thermal management systems for electronic devices. As technology continues to advance, the integration of buckytubes into everyday products could enhance performance and longevity, addressing some of the critical challenges faced by modern electronics.Furthermore, the potential applications of buckytubes extend beyond just engineering and electronics. In the field of medicine, researchers are investigating the use of these nanostructures for drug delivery systems. The hollow nature of buckytubes allows them to encapsulate therapeutic agents, providing a means to transport drugs directly to targeted cells. This targeted delivery system could minimize side effects and improve treatment efficacy, particularly in cancer therapy, where precision is paramount.Despite the promising prospects of buckytubes, there are still challenges to overcome before they can be widely adopted. Issues related to the scalability of production, cost-effectiveness, and potential environmental impacts need to be addressed. Researchers are actively working on developing methods to synthesize buckytubes in a more sustainable and economical manner, ensuring that their benefits can be realized without compromising ecological integrity.In conclusion, buckytubes represent a groundbreaking advancement in nanotechnology, offering a plethora of possibilities across various sectors. Their unique properties, including high strength, excellent electrical and thermal conductivity, and potential for medical applications, make them a focal point of scientific research. As we continue to explore and harness the capabilities of buckytubes, it is essential to remain mindful of the challenges that lie ahead and strive for solutions that promote sustainability and innovation. The future of technology could very well be intertwined with the incredible potential of buckytubes.

在纳米技术和材料科学领域，术语buckytubes指的是一类由碳衍生的圆柱形纳米结构。这些结构本质上是富勒烯的延长版本，富勒烯是完全由碳组成的分子，呈现出空心球体、椭球体或管状形状。buckytubes的独特性质使其成为电子学、材料工程和医学等多个领域的研究与开发的重点。buckytubes的发现为创新开辟了新的途径，因为它们具有显著的强度和轻量特性。例如，这些纳米结构的抗拉强度显著高于钢材，同时重量仅为其一小部分。这种卓越的强重比使得buckytubes成为航空航天和汽车工业中一种有吸引力的选择，在这些领域，减轻重量而不妨碍结构完整性至关重要。此外，buckytubes具有优良的电导率，这使得它们可以用于开发先进的电子元件。研究人员一直在探索buckytubes在创建更快、更高效的晶体管、传感器甚至超导体方面的潜力。它们以最低的电阻导电的能力可能会带来纳米电子学领域的重大进展，从而实现更小、更强大的设备。除了机械和电气特性外，buckytubes还表现出独特的热导率。它们能够有效地散热，使其适合用于电子设备的热管理系统。随着技术的不断进步，将buckytubes整合到日常产品中可以提高性能和寿命，解决现代电子产品面临的一些关键挑战。此外，buckytubes的潜在应用不仅限于工程和电子学。在医学领域，研究人员正在调查使用这些纳米结构进行药物递送系统的可能性。buckytubes的空心特性使它们能够封装治疗剂，提供了一种直接将药物运输到目标细胞的方法。这种靶向递送系统可以减少副作用，提高治疗效果，特别是在癌症治疗中，精确性至关重要。尽管buckytubes前景广阔，但在广泛采用之前仍然面临一些挑战。与生产规模、成本效益和潜在环境影响相关的问题需要解决。研究人员正在积极开发更可持续和经济的buckytubes合成方法，以确保其好处能够在不损害生态完整性的情况下实现。总之，buckytubes代表了纳米技术的突破性进展，在各个行业提供了丰富的可能性。它们独特的性质，包括高强度、优良的电气和热导率，以及在医疗应用中的潜力，使其成为科学研究的焦点。随着我们继续探索和利用buckytubes的能力，重要的是要关注未来面临的挑战，并努力寻找促进可持续性和创新的解决方案。技术的未来很可能与buckytubes的惊人潜力交织在一起。