photosensitive glass

简明释义

光敏玻璃

英英释义

例句

1.The new smartphone features a display made from photosensitive glass that adjusts brightness automatically.

这款新智能手机配备了由光敏玻璃制成的显示屏，可以自动调节亮度。

2.In the lab, we tested the durability of photosensitive glass under various lighting conditions.

在实验室中，我们测试了不同光照条件下光敏玻璃的耐用性。

3.The artist used photosensitive glass to create stunning light-reactive installations.

这位艺术家使用光敏玻璃创作出令人惊叹的光反应装置。

4.He explained how photosensitive glass can change color when exposed to sunlight.

他解释了光敏玻璃在阳光照射下如何变色。

5.Architects are increasingly using photosensitive glass in building designs for energy efficiency.

建筑师越来越多地在建筑设计中使用光敏玻璃以提高能源效率。

作文

In recent years, the development of materials that respond to light has gained significant attention in various fields, including architecture, electronics, and art. One such material is photosensitive glass, which has unique properties that allow it to change its characteristics when exposed to light. This innovative glass is not only a fascinating subject of study but also holds great potential for practical applications.Photosensitive glass is a type of glass that reacts to light, particularly ultraviolet (UV) radiation. When exposed to UV light, this glass undergoes a chemical transformation that alters its transparency or color. This property makes photosensitive glass ideal for use in applications where controlled light transmission is essential. For example, in modern architecture, photosensitive glass can be used in windows that adjust their opacity based on the intensity of sunlight, thereby improving energy efficiency and enhancing indoor comfort.Moreover, photosensitive glass plays a crucial role in the field of electronics. It is utilized in the production of optical devices, such as sensors and lenses. These devices rely on the ability of photosensitive glass to change its refractive index when exposed to light, enabling them to perform complex functions like focusing and filtering. As technology continues to advance, the demand for such materials is likely to increase, paving the way for further innovations in electronic devices.In addition to its applications in architecture and electronics, photosensitive glass is also making waves in the world of art. Artists are exploring the possibilities of using this material to create dynamic installations that interact with light. For instance, sculptures made from photosensitive glass can change appearance throughout the day as they respond to varying light conditions. This interaction not only captivates viewers but also invites them to engage with the artwork in a unique way.The versatility of photosensitive glass extends beyond these fields. Researchers are investigating its potential uses in medicine, particularly in phototherapy. The ability of photosensitive glass to transmit specific wavelengths of light could lead to new treatments for various health conditions, including skin disorders and even cancer. By harnessing the power of light, medical professionals may develop non-invasive therapies that improve patient outcomes.However, there are challenges associated with the use of photosensitive glass. One of the primary concerns is its durability and stability over time. Prolonged exposure to light can lead to degradation, affecting its performance and lifespan. Therefore, ongoing research is essential to enhance the resilience of photosensitive glass and ensure its reliability in different applications.In conclusion, photosensitive glass represents an exciting frontier in material science, with its ability to respond to light opening up numerous possibilities across various industries. From architecture to electronics and art to medicine, the applications of photosensitive glass are vast and varied. As we continue to explore the potential of this remarkable material, it is clear that photosensitive glass will play a significant role in shaping our future, making our environments more adaptable and our technologies more advanced. The journey of photosensitive glass is just beginning, and its impact is sure to be profound.

近年来，响应光线的材料的发展在建筑、电子和艺术等多个领域引起了显著关注。其中一种材料是光敏玻璃，它具有独特的特性，当暴露在光线下时能够改变其特性。这种创新的玻璃不仅是一个令人着迷的研究主题，而且在实际应用中也具有巨大潜力。光敏玻璃是一种对光特别是紫外线（UV）辐射反应的玻璃。当暴露于紫外线光时，这种玻璃会经历化学转变，从而改变其透明度或颜色。这一特性使得光敏玻璃非常适合用于需要控制光传输的应用。例如，在现代建筑中，光敏玻璃可以用于窗户，根据阳光强度调整其不透明度，从而提高能效并增强室内舒适度。此外，光敏玻璃在电子领域也发挥着至关重要的作用。它被用于光学设备的生产，如传感器和镜头。这些设备依赖于光敏玻璃在光照射下改变折射率的能力，使其能够执行聚焦和过滤等复杂功能。随着技术的不断进步，对这种材料的需求可能会增加，为电子设备的进一步创新铺平道路。除了在建筑和电子领域的应用，光敏玻璃还在艺术界引起了轰动。艺术家们正在探索使用这种材料创造与光互动的动态装置的可能性。例如，由光敏玻璃制成的雕塑可以随着一天中的不同光照条件而改变外观。这种互动不仅吸引了观众，还邀请他们以独特的方式与艺术作品互动。光敏玻璃的多功能性超越了这些领域。研究人员正在研究其在医学中的潜在用途，特别是在光疗法方面。光敏玻璃传输特定波长光线的能力可能导致新的治疗方法，用于各种健康状况，包括皮肤疾病甚至癌症。通过利用光的力量，医疗专业人员可能会开发出改善患者结果的非侵入性疗法。然而，使用光敏玻璃也面临挑战。主要问题之一是其耐用性和稳定性。长期暴露在光线下可能导致降解，影响其性能和使用寿命。因此，持续的研究对于增强光敏玻璃的韧性至关重要，以确保其在不同应用中的可靠性。总之，光敏玻璃代表了材料科学的一个激动人心的前沿，其响应光线的能力为各个行业开辟了无数可能性。从建筑到电子，再到艺术和医学，光敏玻璃的应用广泛而多样。随着我们继续探索这种卓越材料的潜力，显然光敏玻璃将在塑造我们的未来中发挥重要作用，使我们的环境更加适应性强、技术更加先进。光敏玻璃的旅程才刚刚开始，其影响必将深远。