luminescent material

简明释义

发光材料荧光材料

英英释义

例句

1.Researchers are developing new types of luminescent material for use in energy-efficient lighting.

研究人员正在开发新型的发光材料，用于节能照明。

2.The safety signs are made from luminescent material to ensure visibility during power outages.

这些安全标志由发光材料制成，以确保在停电时可见。

3.The children’s toys incorporate luminescent material so they can be found easily in the dark.

这些儿童玩具采用了发光材料，以便在黑暗中容易找到。

4.In the art installation, the artist used luminescent material to create a stunning visual effect at night.

在这个艺术装置中，艺术家使用了发光材料，在夜间创造出惊人的视觉效果。

5.The watch features a dial made from luminescent material, allowing it to glow in the dark.

这款手表的表盘由发光材料制成，能够在黑暗中发光。

作文

In the realm of modern science and technology, the discovery and application of various materials have revolutionized numerous industries. One such fascinating category of materials is luminescent material, which refers to substances that emit light through a process called luminescence. This phenomenon occurs when electrons in a material absorb energy and then release it in the form of light as they return to their original state. The implications of luminescent material are vast, impacting fields ranging from electronics to medicine and even art.The most common type of luminescent material is phosphorescent materials, which glow in the dark after being energized by a light source. These materials are often used in safety signs, watch dials, and various decorative items. Their ability to store and slowly release light makes them invaluable in situations where illumination is crucial, such as during power outages or in emergency exits.Another significant application of luminescent material is found in the field of electronics. Light-emitting diodes (LEDs) are a prime example of how these materials have transformed lighting technology. By incorporating luminescent material into semiconductor devices, engineers have created energy-efficient light sources that consume significantly less power than traditional incandescent bulbs. This shift not only reduces electricity costs for consumers but also contributes to a decrease in greenhouse gas emissions, making it a vital step towards sustainability.In addition to practical applications, luminescent material has also made its mark in the medical field. For instance, certain luminescent compounds are used in bioimaging techniques, allowing researchers to visualize cellular processes in real-time. This capability is crucial for developing new treatments and understanding complex biological systems. Moreover, luminescent materials are employed in photodynamic therapy, a treatment that uses light to activate drugs designed to target and destroy cancer cells.Art and design have also embraced the beauty of luminescent material. Artists utilize these materials to create stunning visual effects in their works, often incorporating them into installations that interact with light in captivating ways. The glow emitted by these materials can transform ordinary spaces into extraordinary experiences, captivating audiences and encouraging viewers to engage with the artwork on a deeper level.As research continues, the potential for luminescent material seems limitless. Scientists are exploring new compounds and structures to enhance the efficiency and brightness of luminescent emissions. Innovations such as quantum dots and organic light-emitting diodes (OLEDs) are paving the way for next-generation displays and lighting solutions that could redefine our interaction with technology.In conclusion, luminescent material represents a remarkable intersection of science, technology, and art. Its diverse applications highlight the importance of interdisciplinary collaboration in driving innovation. As we continue to harness the properties of these materials, we can look forward to a future filled with brighter, more sustainable solutions that illuminate our lives in myriad ways.

在现代科学和技术领域，各种材料的发现和应用彻底改变了多个行业。其中一个令人着迷的材料类别是发光材料，指的是通过称为发光的过程发出光的物质。这种现象发生在材料中的电子吸收能量后，当它们返回到原始状态时以光的形式释放出来。发光材料的影响范围广泛，涉及从电子学到医学甚至艺术的多个领域。最常见的发光材料类型是磷光材料，它们在被光源激活后在黑暗中发光。这些材料通常用于安全标志、手表表盘和各种装饰品。它们能够储存并缓慢释放光，使其在电力中断或紧急出口等需要照明的情况下变得不可或缺。发光材料的另一个重要应用是在电子学领域。发光二极管（LED）是这些材料如何改变照明技术的一个典范。通过将发光材料纳入半导体设备，工程师们创造了能效高的光源，消耗的电力显著低于传统白炽灯泡。这一转变不仅减少了消费者的电费，还降低了温室气体排放，是朝着可持续发展迈出的重要一步。除了实用应用之外，发光材料还在医学领域留下了印记。例如，某些发光化合物用于生物成像技术，使研究人员能够实时可视化细胞过程。这一能力对于开发新疗法和理解复杂生物系统至关重要。此外，发光材料还用于光动力治疗，这是一种利用光激活旨在靶向和摧毁癌细胞的药物的治疗方法。艺术和设计也接受了发光材料的美。艺术家利用这些材料在作品中创造惊人的视觉效果，常常将它们融入与光互动的装置中。这些材料发出的光芒可以将普通空间转变为非凡体验，吸引观众并鼓励他们更深层次地参与艺术作品。随着研究的不断推进，发光材料的潜力似乎是无限的。科学家们正在探索新的化合物和结构，以提高发光的效率和亮度。量子点和有机发光二极管（OLED）等创新为下一代显示器和照明解决方案铺平了道路，这可能重新定义我们与技术的互动。总之，发光材料代表了科学、技术和艺术的奇妙交汇。其多样的应用突显了跨学科合作在推动创新中的重要性。随着我们继续利用这些材料的特性，我们可以期待一个充满更明亮、更可持续解决方案的未来，这些解决方案以多种方式照亮我们的生活。