photoreceptive

简明释义

英[ˌfəʊtəʊrɪˈsɛptɪv]美[ˌfoʊtəˈrɛsɪtɪv]

光觉的

感光的

英英释义

单词用法

同义词

反义词

例句

1."We have special receptors on our retinas, called photoreceptive ganglion cells."

我们眼睛视网膜有种特殊受体，叫做受光体神经中枢细胞。

2."We have special receptors on our retinas, called photoreceptive ganglion cells."

我们眼睛视网膜有种特殊受体，叫做受光体神经中枢细胞。

3.Some plants have photoreceptive mechanisms that help them grow towards sunlight.

一些植物具有光感受性机制，帮助它们朝向阳光生长。

4.The retina contains cells that are photoreceptive, allowing us to perceive light.

视网膜中含有光感受性细胞，使我们能够感知光线。

5.The photoreceptive proteins in the eye play a crucial role in our vision.

眼睛中的光感受性蛋白在我们的视觉中起着至关重要的作用。

6.In robotics, photoreceptive sensors can help machines navigate their environment.

在机器人技术中，光感受性传感器可以帮助机器导航其环境。

7.Researchers are studying photoreceptive cells to develop new treatments for vision loss.

研究人员正在研究光感受性细胞，以开发新的视力丧失治疗方法。

作文

In the realm of biology, the term photoreceptive refers to the ability of certain cells or organisms to detect and respond to light. This phenomenon is crucial for various life forms, enabling them to adapt to their environment through processes such as photosynthesis and vision. For instance, plants possess photoreceptive cells that allow them to sense sunlight, directing their growth towards the light source to maximize energy absorption. This adaptation is vital for their survival, as light is a primary energy source in the ecosystem. Similarly, animals, including humans, have photoreceptive cells in their eyes that convert light into electrical signals, which are then processed by the brain to form images. The presence of these cells is fundamental for vision, allowing creatures to navigate their surroundings and respond to potential threats or opportunities. The study of photoreceptive mechanisms has led to significant advancements in various fields, including medicine and technology. For example, understanding how photoreceptive cells function can aid in developing treatments for vision-related disorders. Research has shown that certain diseases, such as retinitis pigmentosa, affect photoreceptive cells in the retina, leading to progressive vision loss. By exploring ways to repair or regenerate these cells, scientists aim to restore sight to those affected by such conditions. Additionally, the principles of photoreceptive responses are being applied in the development of innovative technologies, such as artificial retinas and advanced imaging systems.Moreover, photoreceptive technology is not limited to biological systems. Engineers and scientists are creating synthetic materials that mimic the photoreceptive properties found in nature. These materials can be used in solar panels, enhancing their efficiency in converting sunlight into electricity. As the world shifts towards renewable energy sources, the importance of photoreceptive technologies will only continue to grow. By harnessing the principles of light detection and conversion, we can create sustainable energy solutions that benefit both the environment and society.In conclusion, the concept of photoreceptive encompasses a wide range of biological and technological applications. From enabling plants to thrive in sunlight to allowing animals to perceive their surroundings, photoreceptive mechanisms play a critical role in the natural world. Furthermore, the ongoing research and development of photoreceptive technologies hold great promise for future advancements in healthcare and renewable energy. As we continue to explore the intricacies of light detection and response, we unlock new possibilities for improving life on Earth and addressing some of the most pressing challenges facing humanity today.

在生物学领域，术语photoreceptive指的是某些细胞或生物检测和响应光的能力。这种现象对各种生命形式至关重要，使它们能够通过光合作用和视觉等过程适应环境。例如，植物具有photoreceptive细胞，使它们能够感知阳光，朝向光源生长，以最大化能量吸收。这种适应对它们的生存至关重要，因为光是生态系统中的主要能量来源。同样，动物，包括人类，在眼睛中也有photoreceptive细胞，将光转换为电信号，然后由大脑处理形成图像。这些细胞的存在对于视觉至关重要，使生物能够导航其周围环境并对潜在威胁或机会做出反应。对photoreceptive机制的研究在医学和技术等多个领域取得了重大进展。例如，了解photoreceptive细胞如何运作可以帮助开发治疗与视力相关的疾病的方法。研究表明，某些疾病，如视网膜色素变性，会影响视网膜中的photoreceptive细胞，导致逐渐失明。通过探索修复或再生这些细胞的方法，科学家们旨在恢复受此类疾病影响者的视力。此外，photoreceptive反应的原理正在应用于创新技术的发展，例如人工视网膜和先进成像系统。此外，photoreceptive技术不仅限于生物系统。工程师和科学家正在创造模仿自然界中photoreceptive特性的合成材料。这些材料可用于太阳能电池板，提高其将阳光转化为电力的效率。随着世界向可再生能源转型，photoreceptive技术的重要性只会继续增长。通过利用光检测和转换的原理，我们可以创造出对环境和社会都有益的可持续能源解决方案。总之，photoreceptive的概念涵盖了广泛的生物和技术应用。从使植物在阳光下茁壮成长到让动物感知周围环境，photoreceptive机制在自然界中发挥着关键作用。此外，photoreceptive技术的持续研究和发展为医疗保健和可再生能源的未来进步提供了巨大希望。随着我们不断探索光检测和响应的复杂性，我们开启了改善地球生命和应对当今人类面临的一些最紧迫挑战的新可能性。