buckyballs

简明释义

英[ˈbʌki bɔːlz]美[ˈbʌkiˌbɔlz]

n. 巴基球（buckyball 的复数）

英英释义

单词用法

同义词

反义词

例句

1.Putting polar molecules inside buckyballs may influence the chemical behavior of their outsides, and create new molecules with unique properties.

将极性分子放在足球烯中会使得他们的化学性质与在外面的有所不同，并且产生特殊性质的新分子。

2.The cloud of gas and dust behind the buckyballs isn't actually the same nebula where the buckyballs were discovered, but rather a Hubble Space Telescope image of a nearby nebula.

而布基球背后的气体云和尘埃并非是它被发现时所在的同一处星云的结构部分，而是来自于哈勃望远镜所拍摄的附近的某个星云。

3.Suddenly, you have BuckyBalls Magnetic Building Spheres, and now your life will never be the same.

你突然有布基球磁性建筑领域，现在你的生活将永远是相同的。

4.Readers could pore over academic papers about the physical properties of buckyballs, but a 16-second animation describes their motion more easily and arguably more thoroughly.

读者们可能在一些学术论文上读到过关于布基球物理特性的描绘，但都不及这16秒的动画来得轻松、真实和彻底。

5.Harold Kroto won the Nobel Prize in chemistry in 1996 for the discovery of buckminsterfullerene, the soccer ball shaped form of carbon better known as buckyballs.

Harold Kroto因为发现巴克敏斯特富勒烯，在1996年获得诺贝尔化学奖。巴克敏斯特富勒烯是一种类似足球形状的碳，人们更喜欢叫它巴克球。

6.Buckyballs, as they became known colloquially, are football-shaped molecules made of 60 carbon atoms linked by single and double bonds.

富勒烯通常成为巴克球，是一种由60个碳原子以单键和双键相连组成的足球形碳单质。

7.The advance could help engineers pack all sorts of spheres more efficiently, from nano-sized buckyballs to Christmas tree ornaments.

这个进步可以使工程师们更加有效的包装各类球形物品，从纳米级的巴克球到圣诞树饰品都适用。

8.Buckyballs, for instance, have a unique spherical structure of atomic bonds that create a hexagon-pentagon structure (like that of a soccer ball) with atoms residing at the vertices.

例如，布基球的原子键是一种独特的球面结构，球面中有六边形也有五边形(就和足球一样)，碳原子位于顶点处。

9.Buckyballs, for instance, have a unique spherical structure of atomic bonds that create a hexagon-pentagon structure (like that of a soccer ball) with atoms residing at the vertices.

例如，布基球的原子键是一种独特的球面结构，球面中有六边形也有五边形(就和足球一样)，碳原子位于顶点处。

10.Researchers already know that buckyballs refuse to dissolve in water, sometimes even floating like miniature beach balls.

研究人员得出足球烯不溶于水，有时甚至会像水皮球一样浮在水面。

11.Scientists are studying the properties of buckyballs to develop new materials.

科学家们正在研究巴基球的特性，以开发新材料。

12.In nanotechnology, buckyballs are used for drug delivery systems.

在纳米技术中，巴基球被用于药物传递系统。

13.Researchers believe that buckyballs could play a role in quantum computing.

研究人员相信，巴基球可能在量子计算中发挥作用。

14.The unique structure of buckyballs allows them to absorb light efficiently.

由于其独特的结构，巴基球能够有效吸收光线。

15.Children enjoy playing with magnetic buckyballs as a fun educational toy.

孩子们喜欢玩磁性巴基球作为一种有趣的教育玩具。

作文

The discovery of fullerenes in the 1980s marked a significant milestone in the field of chemistry, and among them, the most popular form is known as buckyballs. These spherical molecules, composed entirely of carbon atoms, resemble a soccer ball in structure. The scientific name for buckyballs is C60, indicating that each molecule contains 60 carbon atoms arranged in a unique pattern of hexagons and pentagons. This fascinating arrangement gives buckyballs their remarkable stability and unique properties, making them a subject of extensive research and interest in various scientific fields.One of the most intriguing aspects of buckyballs is their potential applications. Researchers have been exploring their use in nanotechnology, materials science, and even medicine. For instance, buckyballs can be used to deliver drugs directly to specific cells in the body, minimizing side effects and improving treatment efficacy. Their small size and unique shape allow them to penetrate cell membranes easily, which is a significant advantage in medical applications.Moreover, the electrical conductivity of buckyballs has led to investigations into their use in electronic devices. They can potentially serve as components in organic solar cells, enhancing energy conversion efficiency. Additionally, their ability to form complexes with other molecules opens up possibilities for creating new materials with tailored properties, paving the way for innovations in various industries.Despite their promising applications, the study of buckyballs also raises questions about safety and environmental impact. As with many nanomaterials, understanding how buckyballs interact with biological systems and the environment is crucial. Researchers are actively studying these interactions to ensure that the benefits of buckyballs can be harnessed without compromising safety.In conclusion, buckyballs represent a remarkable achievement in molecular chemistry, offering a glimpse into the potential of nanotechnology. Their unique structure and properties open doors to a wide range of applications, from drug delivery to advanced materials. As research continues, it is essential to balance innovation with safety considerations, ensuring that the advancements brought by buckyballs contribute positively to society. The future of buckyballs in science and technology is bright, and their role in shaping new discoveries will undoubtedly be significant in the years to come.

在1980年代，富勒烯的发现标志着化学领域的重要里程碑，其中最受欢迎的形式被称为buckyballs。这些完全由碳原子组成的球形分子在结构上类似于足球。buckyballs的科学名称是C60，表明每个分子包含60个碳原子，排列成独特的六边形和五边形图案。这种迷人的排列使得buckyballs具有显著的稳定性和独特的性质，使其成为广泛研究和各科学领域关注的对象。buckyballs最引人入胜的方面之一是它们的潜在应用。研究人员一直在探索它们在纳米技术、材料科学甚至医学中的应用。例如，buckyballs可以用于将药物直接输送到体内特定细胞，从而最小化副作用并提高治疗效果。它们的小尺寸和独特形状使其能够轻松穿透细胞膜，这在医学应用中是一个重要的优势。此外，buckyballs的电导率促使研究人员探讨它们在电子设备中的使用。它们可能作为有机太阳能电池中的组件，提高能源转换效率。此外，它们与其他分子形成复合物的能力为创造具有定制属性的新材料开辟了可能性，为各个行业的创新铺平了道路。尽管有着良好的应用前景，但对buckyballs的研究也引发了关于安全性和环境影响的问题。与许多纳米材料一样，了解buckyballs如何与生物系统和环境相互作用至关重要。研究人员正在积极研究这些相互作用，以确保能够利用buckyballs的好处，而不危害安全。总之，buckyballs代表了分子化学的一项非凡成就，提供了对纳米技术潜力的洞察。它们独特的结构和性质为从药物递送到先进材料的广泛应用打开了大门。随着研究的不断深入，平衡创新与安全考虑至关重要，确保buckyballs带来的进步为社会做出积极贡献。buckyballs在科学和技术中的未来光明无比，它们在塑造新发现中的角色无疑将在未来几年中发挥重要作用。