emitting layer

简明释义

放射层

英英释义

例句

1.In a solar cell, the emitting layer is crucial for converting sunlight into electricity.

在太阳能电池中，发光层对将阳光转化为电能至关重要。

2.The OLED display consists of an emitting layer that produces light when an electric current is applied.

OLED显示器由一个发光层组成，当施加电流时会产生光。

3.The efficiency of the LED depends largely on the quality of the emitting layer.

LED的效率在很大程度上取决于发光层的质量。

4.The thickness of the emitting layer can affect the color and intensity of the emitted light.

发光层的厚度会影响发出光的颜色和强度。

5.Researchers are developing new materials for the emitting layer to enhance brightness.

研究人员正在开发新的材料用于发光层以增强亮度。

作文

In the realm of modern technology, particularly in the field of electronics and optoelectronics, the term emitting layer refers to a crucial component in devices such as light-emitting diodes (LEDs) and organic light-emitting diodes (OLEDs). This layer is responsible for the generation of light when an electric current passes through it. The emitting layer is typically composed of semiconductor materials that have been specifically designed to emit light at certain wavelengths, which correspond to different colors. For instance, in an OLED display, the emitting layer can produce a wide spectrum of colors by using different organic compounds, each emitting light at distinct frequencies.The importance of the emitting layer cannot be overstated, as it directly influences the efficiency and brightness of the emitted light. In recent years, researchers have made significant advancements in the development of new materials for the emitting layer, aiming to improve the performance of LED and OLED technologies. For example, the introduction of phosphorescent materials has allowed for higher energy conversion efficiencies, resulting in brighter displays with lower power consumption.Moreover, the design and structure of the emitting layer play a vital role in determining the overall quality of the light produced. Engineers must carefully consider factors such as thickness, composition, and the layering of different materials to optimize the performance of the device. A well-optimized emitting layer can lead to enhanced color purity and improved operational lifetime, making it a focal point in the development of next-generation lighting solutions.In addition to its applications in lighting, the emitting layer is also integral to various display technologies, including televisions, smartphones, and computer monitors. The vibrant colors and high contrast ratios that consumers expect from these devices are largely attributed to the effectiveness of the emitting layer. As technology continues to evolve, the demand for better-performing emitting layers will only increase, pushing researchers and manufacturers to innovate continuously.Furthermore, the environmental impact of lighting technologies has become a significant concern in recent years. As a result, many companies are now focusing on developing sustainable materials for the emitting layer. This includes exploring biodegradable substances and reducing the reliance on toxic materials traditionally used in semiconductor manufacturing. By creating a more environmentally friendly emitting layer, the industry can contribute to a greener future while still meeting the demands of consumers for high-quality lighting solutions.In conclusion, the emitting layer is a fundamental aspect of modern electronic devices that generate light. Its composition, design, and technological advancements have profound implications for the efficiency, brightness, and sustainability of lighting and display technologies. As we move forward, the ongoing research and development in this area will undoubtedly shape the future of how we experience light in our daily lives.

在现代科技领域，特别是在电子学和光电学方面，短语发光层指的是诸如发光二极管（LED）和有机发光二极管（OLED）等设备中的关键组件。该层在电流通过时负责产生光。发光层通常由特定设计的半导体材料组成，这些材料能够在特定波长下发光，对应不同的颜色。例如，在OLED显示屏中，发光层可以通过使用不同的有机化合物来产生广泛的颜色，每种化合物在不同频率下发光。发光层的重要性不容小觑，因为它直接影响发光的效率和亮度。近年来，研究人员在开发新材料方面取得了显著进展，以改善LED和OLED技术的性能。例如，磷光材料的引入使能量转换效率更高，从而实现更亮的显示效果，并降低功耗。此外，发光层的设计和结构在确定设备的整体光质方面也起着至关重要的作用。工程师必须仔细考虑厚度、成分和不同材料的层叠等因素，以优化设备的性能。一个优化良好的发光层可以提高颜色的纯度和改善操作寿命，使其成为下一代照明解决方案开发的重点。除了在照明中的应用外，发光层在各种显示技术中也至关重要，包括电视、智能手机和计算机显示器。消费者对这些设备所期望的鲜艳色彩和高对比度在很大程度上归功于发光层的有效性。随着技术的不断发展，对更高性能的发光层的需求只会增加，推动研究人员和制造商不断创新。此外，近年来照明技术的环境影响已成为一个重要问题。因此，许多公司现在专注于为发光层开发可持续材料。这包括探索生物降解物质，并减少对传统半导体制造中使用的有毒材料的依赖。通过创造更环保的发光层，该行业可以为更绿色的未来做出贡献，同时仍然满足消费者对高质量照明解决方案的需求。总之，发光层是现代电子设备中产生光的基本方面。其组成、设计和技术进步对照明和显示技术的效率、亮度和可持续性具有深远的影响。随着我们向前发展，在这一领域的持续研究和开发无疑将塑造我们日常生活中光的体验的未来。