chromophoric
简明释义
英[krəʊməˈfɒrɪk]美[kroʊməˈfɑːrɪk]
adj. 发色团的;载色体的
英英释义
Relating to or having a chromophore, which is a part of a molecule responsible for its color. | 与色团相关或具有色团的特性,色团是分子中负责其颜色的部分。 |
单词用法
色素化合物 | |
色素染料 | |
色素位点 | |
色素机制 | |
色素相互作用 | |
色素吸收 |
同义词
| 色彩的 | 色差会影响图像的清晰度。 | ||
| 颜色测量的 | Colorimetric analysis is essential in determining the concentration of substances. | 颜色测量分析在确定物质浓度方面至关重要。 | |
| 着色的 | 着色材料常用于艺术和设计中。 |
反义词
| 无色的 | The solution appeared achromic under certain lighting conditions. | 在某些光照条件下,溶液显得无色。 | |
| 无色的 | 许多气体是无色的,不吸收可见光。 |
例句
1.The infra-red spectra showed that the main chromophoric groups (conjugated carbonyl groups) were destroyed by bleaching agents, which was the main reason of brightness incremsent.
红外光谱表明,主要发色基团(共轭羰基)被漂剂破坏,这是提高浆白度的主要原因。
2.The infra-red spectra showed that the main chromophoric groups (conjugated carbonyl groups) were destroyed by bleaching agents, which was the main reason of brightness incremsent.
红外光谱表明,主要发色基团(共轭羰基)被漂剂破坏,这是提高浆白度的主要原因。
3.In biological systems, chromophoric molecules play a crucial role in photosynthesis.
在生物系统中,色素性分子在光合作用中发挥着关键作用。
4.The dye used in this experiment is highly chromophoric, allowing for vivid color changes.
此次实验中使用的染料具有高度的色素性的特性,使颜色变化鲜艳。
5.The chromophoric properties of the molecule make it suitable for use in LED technology.
该分子的色素性特性使其适合用于LED技术。
6.Researchers are studying chromophoric compounds to improve solar energy absorption.
研究人员正在研究色素性化合物,以改善太阳能吸收。
7.The research focused on the chromophoric characteristics of the new synthetic dye.
研究集中在新合成染料的色素性特征上。
作文
The study of light and color is a fascinating field that intersects with various disciplines, including physics, chemistry, and biology. One of the key concepts in this realm is the idea of chromophoric, which refers to the part of a molecule responsible for its color. A chromophoric group can absorb specific wavelengths of light, leading to the perception of color. This property is crucial in many natural processes, such as photosynthesis, where chlorophyll, a chromophoric pigment, captures sunlight to convert it into chemical energy. Understanding chromophoric structures is vital for numerous applications, including dye manufacturing, biological imaging, and even medical diagnostics. For instance, in the world of textiles, chromophoric dyes are used to impart vibrant colors to fabrics. These dyes work by having specific chromophoric groups that absorb certain wavelengths of visible light, reflecting others, thus creating the desired color effect. In biology, chromophoric molecules play essential roles in various physiological processes. The human eye contains chromophoric proteins called opsins, which are crucial for vision. These proteins change shape when they absorb light, initiating a biochemical cascade that ultimately leads to the perception of images. Without these chromophoric components, our ability to see and interpret the world around us would be severely impaired.Moreover, in the field of environmental science, chromophoric substances in water bodies can indicate the presence of pollutants or organic matter. The analysis of chromophoric compounds in water helps researchers understand the health of aquatic ecosystems and the impact of human activities on these environments. By using advanced spectroscopic techniques, scientists can identify and quantify chromophoric materials in water samples, providing valuable data for conservation efforts.In recent years, researchers have been exploring the potential of chromophoric materials in the development of new technologies, such as solar cells and light-emitting devices. By designing chromophoric compounds that can efficiently absorb and convert sunlight into electricity, scientists aim to create more efficient renewable energy sources. Similarly, chromophoric materials are being investigated for their use in organic light-emitting diodes (OLEDs), which are becoming increasingly popular in display technology due to their superior color quality and energy efficiency.In conclusion, the term chromophoric encompasses a wide range of applications and implications across various scientific fields. From understanding the basic principles of color and light absorption to applying this knowledge in practical technologies, the significance of chromophoric compounds cannot be overstated. As research continues to advance, the exploration of chromophoric materials will likely lead to new innovations that enhance our understanding of the natural world and improve technological solutions for modern challenges.
光与色彩的研究是一个迷人的领域,涉及物理学、化学和生物学等多个学科。在这个领域中,一个关键概念是chromophoric的概念,它指的是负责分子颜色的部分。一个chromophoric基团可以吸收特定波长的光,从而导致颜色的感知。这一特性在许多自然过程中至关重要,例如光合作用,其中叶绿素作为一种chromophoric色素,捕获阳光以将其转化为化学能。理解chromophoric结构对于许多应用至关重要,包括染料制造、生物成像甚至医学诊断。例如,在纺织品的世界中,chromophoric染料用于赋予织物鲜艳的颜色。这些染料通过具有特定的chromophoric基团来工作,吸收可见光的某些波长,反射其他波长,从而创造出所需的颜色效果。在生物学中,chromophoric分子在各种生理过程中发挥着重要作用。人眼中含有被称为视蛋白的chromophoric蛋白质,这对视觉至关重要。这些蛋白质在吸收光线时会改变形状,启动一系列生化反应,最终导致图像的感知。如果没有这些chromophoric成分,我们看见和解释周围世界的能力将受到严重影响。此外,在环境科学领域,水体中的chromophoric物质可以指示污染物或有机物的存在。对水中chromophoric化合物的分析帮助研究人员了解水生生态系统的健康状况以及人类活动对这些环境的影响。通过使用先进的光谱技术,科学家可以识别和量化水样中的chromophoric材料,为保护工作提供有价值的数据。近年来,研究人员开始探索chromophoric材料在新技术开发中的潜力,例如太阳能电池和发光设备。通过设计能够有效吸收和转化阳光为电能的chromophoric化合物,科学家旨在创造更高效的可再生能源。同样,chromophoric材料也正在被研究用于有机发光二极管(OLED),由于其卓越的色彩质量和能效,越来越受到显示技术的欢迎。总之,chromophoric一词涵盖了各个科学领域广泛的应用和意义。从理解颜色和光吸收的基本原理到将这些知识应用于实际技术,chromophoric化合物的重要性不容小觑。随着研究的不断推进,对chromophoric材料的探索可能会导致新的创新,增强我们对自然世界的理解,并改善现代挑战的技术解决方案。
