crystalline
简明释义
adj. 透明的;水晶般的;水晶制的
英英释义
Having the structure and form of a crystal; composed of crystals. | 具有晶体的结构和形态;由晶体组成。 |
清晰透明;在清晰度上类似于水晶。 |
单词用法
晶体结构 | |
晶体状聚合物;结晶聚合物 |
同义词
| 清晰的 | The water in the lake is so clear that you can see the bottom. | 湖水清澈见底。 | |
| 透明的 | 她穿着一件在光线下闪烁的透明裙子。 | ||
| 光滑的 | 池塘光滑的表面反射出天空。 | ||
| 明晰的 | 他的解释清晰易懂。 |
反义词
| 无定形的 | 这块玻璃是无定形的,缺乏明确的结构。 | ||
| 不透明的 | The paint was opaque, preventing any light from passing through. | 这款油漆是不透明的,阻止任何光线透过。 |
例句
1.Folic acid is a yellowish to orange, crystalline powder; odourless or almost odourless.
叶酸是淡黄色至橙色结晶粉沫,无臭或几乎无臭。
2.The carbon atoms then neatly arranged themselves into the crystalline structure of a diamond.
把碳原子排列得非常整齐,而形成晶体结构的钻石。
3.Crystalline material is produced by mixing scintillation crystal into cerium vanadates crystal.
通过将闪烁晶体混合到钒酸铈晶体中来生产晶体材料。
4.As they drilled into the central and deepest part of the Mediterranean basin, the scientists took solid, shiny, crystalline salt from the core barrel.
随着科学家们在地中海盆地的中部和最深处进行钻探,他们从岩心桶中取出了坚硬的、有光泽的结晶盐。
5.Why that is so lies buried in the different crystalline structures of the two materials.
那就是为什么这些谎言隐藏在两种材料不同的晶体结构里。
6.Magnetics are by definition polar. Crystalline energy is non-polar, zero point!
磁性被定义为极性的,水晶能量是非极性的——零点!
7.Indeed these are being reprogrammed by and within the Crystalline 144 Grid!
其实这些圆碟正被144水晶栅格重编,重编过程也是发生在此144水晶栅格之内。
8.His voice had a crystalline clarity that captivated the audience.
他的声音有一种清澈如水的清晰度,吸引了观众。
9.The jewelry store showcased a variety of crystalline gems.
珠宝店展示了多种晶体的宝石。
10.She admired the crystalline formations of ice on the window.
她欣赏着窗户上结晶状的冰花。
11.The scientist observed a crystalline structure under the microscope.
科学家在显微镜下观察到了一个晶体的结构。
12.The water in the lake was so pure that it appeared crystalline on sunny days.
湖水如此纯净,以至于在阳光明媚的日子里看起来是晶莹剔透的。
作文
The beauty of nature is often reflected in its most fundamental forms, one of which is the concept of crystalline (晶体的) structures. These structures are not just limited to minerals and rocks; they can also be observed in various forms throughout our environment. Crystals are formed when molecules arrange themselves in a highly ordered pattern, creating a structure that is both aesthetically pleasing and scientifically significant. The study of these crystalline (晶体的) formations has captivated scientists and artists alike for centuries, revealing the intricate patterns and symmetry found in nature.One of the most fascinating aspects of crystalline (晶体的) structures is their ability to influence light. For example, when light passes through a crystal, it can refract, reflecting the colors of the spectrum in a dazzling display. This phenomenon is not only beautiful but also serves practical purposes in technology, such as in the creation of prisms and lenses. The crystalline (晶体的) nature of materials like quartz makes them ideal for use in watches and clocks, where precision is paramount.In the realm of chemistry, crystalline (晶体的) substances play a crucial role in understanding molecular interactions and bonding. The arrangement of atoms in a crystalline (晶体的) solid determines its physical properties, including melting point, hardness, and solubility. For instance, table salt, or sodium chloride, forms a cubic crystalline (晶体的) structure that is easily recognizable and contributes to its unique taste and behavior in solutions.Moreover, the concept of crystalline (晶体的) structures extends beyond the natural world into the realm of art and architecture. Artists have long been inspired by the geometric shapes and patterns found in crystals, incorporating these elements into their works. Similarly, architects often draw from the principles of crystalline (晶体的) design to create buildings that reflect harmony and balance with their surroundings. The use of glass and reflective surfaces in modern architecture can evoke the same sense of wonder as a crystalline (晶体的) formation in nature.In conclusion, the term crystalline (晶体的) encompasses a wide range of phenomena that bridge the gap between science and art. From the natural beauty of crystal formations to their practical applications in technology and their influence on artistic expression, crystalline (晶体的) structures remind us of the elegance and complexity of the world around us. As we continue to explore and understand these remarkable formations, we deepen our appreciation for the intricate design of nature and the myriad ways it inspires human creativity.
自然的美常常在其最基本的形式中反映出来,其中一个概念是crystalline(晶体的)结构。这些结构不仅限于矿物和岩石;它们也可以在我们环境中的各种形式中观察到。水晶是在分子以高度有序的模式排列时形成的,创造出一种既美观又具有科学意义的结构。对这些crystalline(晶体的)形成的研究几个世纪以来吸引了科学家和艺术家的关注,揭示了自然界中复杂的图案和对称性。crystalline(晶体的)结构最迷人的方面之一是它们影响光的能力。例如,当光通过水晶时,它可以折射,反射出光谱的颜色,展现出令人眼花缭乱的景象。这种现象不仅美丽,而且在技术上也具有实际用途,例如在棱镜和透镜的制造中。像石英这样的crystalline(晶体的)材料使其成为手表和时钟等精密仪器的理想选择。在化学领域,crystalline(晶体的)物质在理解分子相互作用和结合中发挥着至关重要的作用。crystalline(晶体的)固体中原子的排列决定了其物理性质,包括熔点、硬度和溶解度。例如,食盐或氯化钠形成一种立方形的crystalline(晶体的)结构,这种结构很容易识别,并且有助于其独特的味道和在溶液中的行为。此外,crystalline(晶体的)结构的概念超越了自然界,进入艺术和建筑的领域。艺术家们长期以来受到晶体中几何形状和图案的启发,将这些元素融入他们的作品中。同样,建筑师们经常借鉴crystalline(晶体的)设计原理,创造出与周围环境和谐平衡的建筑。现代建筑中玻璃和反射表面的使用可以唤起与自然中crystalline(晶体的)形成相同的敬畏感。总之,术语crystalline(晶体的)涵盖了一系列现象,架起了科学与艺术之间的桥梁。从水晶形成的自然美到它们在技术中的实际应用,再到它们对艺术表现的影响,crystalline(晶体的)结构提醒我们周围世界的优雅与复杂。随着我们继续探索和理解这些非凡的形成,我们加深了对自然复杂设计的欣赏,以及它激励人类创造力的无数方式。
