carbon compound

简明释义

碳化合物

英英释义

例句

1.Many plastics are made from carbon compounds 碳化合物 derived from petroleum.

许多塑料是由来自石油的<咱>碳化合物制成的。

2.The laboratory analyzed various carbon compounds 碳化合物 to determine their potential for use in pharmaceuticals.

实验室分析了各种<咱>碳化合物以确定它们在制药中的潜力。

3.The study focused on the effects of carbon compound 碳化合物 emissions on air quality.

这项研究集中在<咱>碳化合物排放对空气质量的影响。

4.Photosynthesis converts light energy into chemical energy, creating carbon compounds 碳化合物 in plants.

光合作用将光能转化为化学能，在植物中创造<咱>碳化合物。

5.Fossil fuels are primarily composed of carbon compounds 碳化合物, which release energy when burned.

化石燃料主要由<咱>碳化合物组成，燃烧时释放能量。

作文

Carbon compounds play a crucial role in the chemistry of life. They are the building blocks of all living organisms and are essential for various biological processes. The term carbon compound (碳化合物) refers to a class of chemical compounds that contain carbon atoms bonded to other elements, such as hydrogen, oxygen, nitrogen, and more. These compounds can be found in a vast array of forms, from simple molecules like methane (CH4) to complex structures like proteins and nucleic acids.One of the most significant features of carbon compounds (碳化合物) is their versatility. Carbon atoms have the unique ability to form stable bonds with many other elements, allowing for the creation of diverse molecular structures. This property is fundamental to organic chemistry, which studies the structure, properties, and reactions of carbon-containing compounds. For instance, hydrocarbons, which are exclusively made of carbon and hydrogen, serve as fuels and are critical for energy production.In nature, carbon compounds (碳化合物) are involved in numerous biochemical processes. Photosynthesis, for example, is a process where plants convert carbon dioxide (CO2) from the atmosphere into glucose (C6H12O6), a simple sugar that serves as an energy source. This transformation not only provides energy for the plants themselves but also forms the basis of the food chain, supporting countless other organisms.Moreover, carbon compounds (碳化合物) are integral to the formation of biomolecules. Proteins, which are composed of amino acids, rely on carbon-based structures to function properly. Similarly, nucleic acids, such as DNA and RNA, are made up of nucleotide units that contain carbon atoms. These biomolecules are vital for genetic information storage and transmission, making them essential for life.The impact of carbon compounds (碳化合物) extends beyond biology; they are also significant in various industrial applications. For instance, polymers, which are large molecules made up of repeating units of carbon compounds, are used in everything from packaging materials to clothing. The development of synthetic carbon compounds (碳化合物) has revolutionized industries by providing new materials with desirable properties, such as durability and flexibility.However, the increasing concentration of certain carbon compounds (碳化合物) in the atmosphere, particularly carbon dioxide and methane, is raising concerns about climate change. These greenhouse gases trap heat in the Earth's atmosphere, leading to global warming and its associated effects on weather patterns, sea levels, and ecosystems. Understanding the behavior of these carbon compounds (碳化合物) and finding ways to mitigate their impact is crucial for environmental sustainability.In conclusion, carbon compounds (碳化合物) are fundamental to life and play a pivotal role in both natural and industrial processes. Their unique properties allow for a vast diversity of structures and functions, making them indispensable for biological systems and modern technology. As we continue to explore the implications of these compounds, it is essential to balance their benefits with the responsibility of managing their environmental impact.

碳化合物在生命化学中扮演着至关重要的角色。它们是所有生物体的基本组成部分，并且对各种生物过程至关重要。术语碳化合物（碳化合物）指的是一类含有碳原子与其他元素（如氢、氧、氮等）结合的化学化合物。这些化合物可以以多种形式存在，从简单的分子如甲烷（CH4）到复杂的结构如蛋白质和核酸。碳化合物（碳化合物）的一个显著特征是它们的多样性。碳原子具有与许多其他元素形成稳定键的独特能力，从而允许创造出多样的分子结构。这一特性是有机化学的基础，有机化学研究含碳化合物的结构、性质和反应。例如，烃类仅由碳和氢构成，是燃料并对能源生产至关重要。在自然界中，碳化合物（碳化合物）参与许多生化过程。例如，光合作用是植物将来自大气中的二氧化碳（CO2）转化为葡萄糖（C6H12O6）这一简单糖的过程，这一过程为植物自身提供能量，同时也形成了食物链的基础，支持无数其他生物。此外，碳化合物（碳化合物）是生物大分子形成的不可或缺的部分。蛋白质由氨基酸组成，依赖于基于碳的结构才能正常运作。类似地，核酸，如DNA和RNA，由含有碳原子的核苷酸单元组成。这些生物大分子对遗传信息的存储和传递至关重要，使其成为生命的基本组成部分。碳化合物（碳化合物）的影响不仅限于生物学；它们在各种工业应用中也非常重要。例如，聚合物是由重复的碳化合物单元组成的大分子，用于从包装材料到服装的所有领域。合成碳化合物（碳化合物）的发展通过提供具有理想性能的新材料（如耐用性和灵活性）彻底改变了各个行业。然而，某些碳化合物（碳化合物）在大气中的浓度不断增加，特别是二氧化碳和甲烷，正引发人们对气候变化的关注。这些温室气体会在地球大气中捕获热量，导致全球变暖及其对天气模式、海平面和生态系统的影响。了解这些碳化合物（碳化合物）的行为以及寻找减轻其影响的方法对环境可持续性至关重要。总之，碳化合物（碳化合物）是生命的基础，并在自然和工业过程中扮演着关键角色。它们独特的性质允许形成多样的结构和功能，使其对生物系统和现代技术不可或缺。随着我们继续探索这些化合物的影响，平衡其好处与管理其环境影响的责任至关重要。