addition crystal

简明释义

1. 加成混晶; 2. 加成固溶伐;

英英释义

例句

1.She decided to use an addition crystal 附加水晶 in her artwork to create a stunning effect.

她决定在自己的艺术作品中使用一个addition crystal 附加水晶来创造惊艳的效果。

2.The jeweler recommended an addition crystal 附加水晶 to enhance the beauty of the necklace.

珠宝商建议在项链上添加一个addition crystal 附加水晶以增强其美感。

3.In the workshop, we learned how to create an addition crystal 附加水晶 for our custom designs.

在工作坊中，我们学习了如何为我们的定制设计制作一个addition crystal 附加水晶。

4.The addition crystal 附加水晶 added a unique flair to the overall decor of the room.

这个addition crystal 附加水晶为房间的整体装饰增添了独特的风格。

5.The addition crystal 附加水晶 was the perfect finishing touch for the bridal bouquet.

这个addition crystal 附加水晶是新娘花束的完美收尾。

作文

In the realm of materials science, the term addition crystal refers to a specific type of crystal structure that forms as a result of adding particular elements or compounds to a base material. This process is crucial in various fields, including chemistry, physics, and engineering, where understanding the properties of materials at the molecular level can lead to innovative applications. The formation of an addition crystal is not merely a random occurrence; it is a carefully controlled process that can significantly alter the physical and chemical properties of the original substance.For instance, when creating semiconductors, engineers often introduce specific impurities into silicon to form what is known as a doped semiconductor. The resulting addition crystal has enhanced electrical properties that are essential for the functionality of electronic devices. By controlling the type and amount of the added material, scientists can tailor the characteristics of the crystal to meet specific requirements.The significance of addition crystals extends beyond electronics. In pharmaceuticals, the crystallization process plays a vital role in drug formulation. The solubility and bioavailability of a drug can be improved by altering its crystalline form through the addition of certain excipients. This manipulation of crystal structures is fundamental in ensuring that medications are effective and safe for consumption.Moreover, the study of addition crystals provides insights into the fundamental principles of crystallography. Scientists examine how different atoms or molecules interact and bond within a crystal lattice, leading to diverse structural configurations. These configurations can exhibit unique optical, thermal, and mechanical properties, making them valuable for various industrial applications, from coatings to advanced materials used in aerospace engineering.In the context of environmental science, addition crystals can also play a role in addressing pollution. Researchers are exploring ways to use crystals to capture and store harmful substances, thus mitigating their impact on ecosystems. For example, certain metal-organic frameworks (MOFs) are designed as addition crystals to absorb carbon dioxide from the atmosphere, contributing to efforts aimed at combating climate change.In conclusion, the concept of addition crystal serves as a bridge between theoretical research and practical applications across multiple disciplines. By understanding and harnessing the properties of these crystals, scientists and engineers can drive innovation, improve existing technologies, and develop new solutions to contemporary challenges. The exploration of addition crystals embodies the intersection of creativity and science, highlighting the importance of interdisciplinary approaches in advancing our knowledge and capabilities in material science. As we continue to delve deeper into the world of crystals, the potential for discovery and application remains vast, promising exciting developments in the years to come.

在材料科学领域，术语addition crystal指的是由于向基础材料中添加特定元素或化合物而形成的一种特定类型的晶体结构。这个过程在化学、物理和工程等多个领域至关重要，因为理解材料在分子层面的性质可以导致创新应用。addition crystal的形成并不是偶然发生的；这是一个经过精心控制的过程，可以显著改变原始物质的物理和化学性质。例如，在创建半导体时，工程师通常会向硅中引入特定的杂质，以形成所谓的掺杂半导体。所得到的addition crystal具有增强的电气特性，这对于电子设备的功能至关重要。通过控制添加材料的类型和数量，科学家可以调整晶体的特性以满足特定要求。addition crystals的重要性超越了电子产品。在制药行业，结晶过程在药物配方中发挥着至关重要的作用。通过改变药物的晶体形态并添加某些赋形剂，可以改善药物的溶解度和生物利用度。这种对晶体结构的操控在确保药物有效且安全可用方面是基础性的。此外，addition crystals的研究为我们提供了对晶体学基本原理的深入理解。科学家们研究不同原子或分子在晶体格子中的相互作用和结合方式，从而形成多样的结构配置。这些配置可能表现出独特的光学、热学和机械性质，使其在从涂层到航空航天工程中使用的先进材料等各种工业应用中具有价值。在环境科学的背景下，addition crystals也可以在应对污染方面发挥作用。研究人员正在探索利用晶体捕获和储存有害物质的方法，从而减轻其对生态系统的影响。例如，某些金属有机框架（MOFs）被设计为addition crystals，以吸收大气中的二氧化碳，助力应对气候变化的努力。总之，addition crystal的概念在多个学科之间架起了理论研究与实际应用的桥梁。通过理解和利用这些晶体的特性，科学家和工程师可以推动创新，改善现有技术，并开发出应对当代挑战的新解决方案。对addition crystals的探索体现了创造力与科学的交汇，突显了跨学科方法在推进我们材料科学知识和能力中的重要性。随着我们继续深入探索晶体世界，发现和应用的潜力依然广阔，未来几年将带来令人兴奋的发展。