buckyball
简明释义
n. 巴基球
英英释义
A buckyball is a spherical molecule composed of 60 carbon atoms arranged in a structure similar to a soccer ball, known scientifically as C60. | 巴基球是一种由60个碳原子组成的球形分子,其结构类似于足球,科学上称为C60。 |
单词用法
巴基球分子 | |
巴基球结构 | |
巴基球特性 | |
富勒烯和巴基球 | |
巴基球合成 | |
巴基球应用 |
同义词
| 富勒烯 | Fullerenes are a class of carbon allotropes that include buckyballs. | 富勒烯是一类包括buckyball的碳同素异形体。 | |
| C60分子 | C60 is often referred to as buckyball due to its spherical shape. | C60因其球形结构而常被称为buckyball。 |
反义词
例句
1.The transparent effect is caused when micron-sized water droplets are sprayed across a thin layer of the buckyball-plastic solution.
透明效果,这引起微米大小的水滴跨越了布基球,喷一层薄薄的塑料解决方案。
2.The carbon molecule known as a buckyball, a member of the fullerene family, can act as a cage for a variety of other chemicals.
一种称作足球烯的碳分子,它是富勒家族中的一员,可以像笼子一样困住别的化学分子。
3.The transparent effect is caused when micron-sized water droplets are sprayed across a thin layer of the buckyball-plastic solution.
透明效果,这引起微米大小的水滴跨越了布基球,喷一层薄薄的塑料解决方案。
4.Researchers discovered that buckyballs (巴基球) can be used to deliver drugs to specific cells in the body.
研究人员发现,buckyballs(巴基球)可以用于将药物送达体内特定细胞。
5.The unique properties of buckyballs (巴基球) make them ideal for use in solar energy applications.
buckyballs(巴基球)的独特属性使它们非常适合用于太阳能应用。
6.In nanotechnology, buckyballs (巴基球) are being explored for their potential in electronics.
在纳米技术中,buckyballs(巴基球)因其在电子学中的潜力而受到关注。
7.The structure of a buckyball (巴基球) is similar to that of a soccer ball, made entirely of carbon atoms.
一个buckyball(巴基球)的结构类似于足球,由碳原子完全构成。
8.Scientists are studying how buckyballs (巴基球) can help in the development of new materials.
科学家们正在研究buckyballs(巴基球)如何有助于新材料的发展。
作文
The discovery of the buckyball (巴基球) has been one of the most fascinating developments in the field of nanotechnology and materials science. Named after the architect Buckminster Fuller due to its resemblance to his geodesic domes, the buckyball is a spherical molecule composed of 60 carbon atoms arranged in a structure similar to that of a soccer ball. This unique arrangement not only gives it a distinct shape but also imparts remarkable properties that have captivated scientists and researchers worldwide.One of the most intriguing aspects of the buckyball (巴基球) is its stability and resilience. The carbon atoms in the molecule are bonded in a way that allows it to withstand high temperatures and pressures, making it an ideal candidate for various applications. For instance, its strength and lightweight nature make it a potential material for use in aerospace engineering, where reducing weight while maintaining structural integrity is crucial.Moreover, the buckyball (巴基球) exhibits unique electronic properties that have sparked interest in the field of electronics. Its ability to conduct electricity can be harnessed in the development of new types of transistors and other electronic components. Researchers are exploring the possibility of using buckyballs (巴基球) to create more efficient solar cells, which could revolutionize the renewable energy sector by providing cheaper and more effective ways to harness solar power.In addition to its practical applications, the buckyball (巴基球) has also opened new avenues for scientific research. Its unique structure allows it to encapsulate other molecules, leading to potential uses in drug delivery systems. By attaching therapeutic agents to buckyballs (巴基球), scientists can create targeted treatments that minimize side effects and maximize efficacy. This innovative approach has the potential to transform how we treat various diseases, particularly cancer.Furthermore, the study of buckyballs (巴基球) has led to the discovery of other carbon-based nanostructures, such as carbon nanotubes and graphene. These materials share some of the remarkable properties of buckyballs (巴基球) but possess their own unique characteristics that make them suitable for different applications. The exploration of these materials continues to expand our understanding of nanotechnology and its potential impact on various industries.However, despite the promising prospects of buckyballs (巴基球) and related nanomaterials, there are also concerns regarding their safety and environmental impact. As with any new technology, it is essential to thoroughly assess the potential risks associated with their use. Researchers are actively investigating the toxicity of buckyballs (巴基球) and their behavior in biological systems to ensure that they can be safely integrated into consumer products and medical applications.In conclusion, the buckyball (巴基球) represents a significant milestone in the realm of chemistry and materials science. Its unique structure and properties have opened up a world of possibilities for innovation across various fields, from electronics to medicine. As research continues to unfold, the buckyball (巴基球) may very well play a pivotal role in shaping the future of technology and improving the quality of life for people around the globe.
