clean reactivity

简明释义

净堆反应性

英英释义

例句

1.In our experiments, we observed that the clean reactivity of the chemical compound was crucial for its application in medicine.

在我们的实验中，我们观察到该化合物的清洁反应性对于其在医学中的应用至关重要。

2.Improving the clean reactivity of the materials used in construction can lead to more durable buildings.

提高建筑中使用材料的清洁反应性可以导致更耐用的建筑。

3.The artist praised the clean reactivity of the paint, allowing for vibrant colors without muddiness.

艺术家赞扬了颜料的清洁反应性，使得颜色鲜艳而不混浊。

4.The new software update improved the system's clean reactivity significantly, making it more responsive to user inputs.

新的软件更新显著改善了系统的清洁反应性，使其对用户输入更加敏感。

5.The car's engine was designed for clean reactivity, ensuring efficient fuel consumption and low emissions.

这款汽车的发动机设计为清洁反应性，确保高效的燃油消耗和低排放。

作文

In the realm of chemistry and environmental science, the term clean reactivity refers to the ability of a substance to engage in chemical reactions without producing harmful byproducts or pollutants. This concept is becoming increasingly important as we strive to develop sustainable practices and reduce our ecological footprint. The quest for clean reactivity is not just limited to industrial processes but extends to various aspects of daily life, including energy production, waste management, and even consumer products.One of the most significant applications of clean reactivity is in the field of renewable energy. For instance, solar cells are designed to harness sunlight and convert it into electricity with minimal environmental impact. The materials used in these cells are selected for their clean reactivity, ensuring that they can efficiently convert energy without releasing toxic substances. Similarly, hydrogen fuel cells operate on the principle of clean reactivity, where hydrogen reacts with oxygen to produce electricity, with water being the only byproduct. This reaction exemplifies the ideal scenario in which energy can be generated without compromising air quality or contributing to climate change.In contrast, traditional fossil fuels exhibit poor clean reactivity. When burned, they release carbon dioxide, sulfur dioxide, and other harmful pollutants into the atmosphere. This not only contributes to global warming but also poses significant health risks to living organisms. Therefore, transitioning towards materials and processes that showcase clean reactivity is crucial for mitigating the adverse effects of pollution.Moreover, the concept of clean reactivity is also relevant in the field of waste management. Many modern recycling techniques aim to maximize the recovery of materials while minimizing contamination. By employing methods that prioritize clean reactivity, we can ensure that recycled materials maintain their quality and usability. For example, advanced sorting technologies can separate recyclables from non-recyclables effectively, allowing for a cleaner recycling stream that reduces the need for new raw materials.In everyday consumer choices, the idea of clean reactivity can guide individuals toward more environmentally friendly options. Products labeled as biodegradable or made from renewable resources typically demonstrate clean reactivity, as they break down naturally without leaving harmful residues. By choosing such products, consumers can contribute to a more sustainable economy and encourage manufacturers to adopt greener practices.In conclusion, the importance of clean reactivity cannot be overstated in our efforts to create a sustainable future. Whether in energy production, waste management, or consumer behavior, prioritizing clean reactivity leads to healthier ecosystems and a cleaner planet. As we continue to innovate and seek solutions to global challenges, embracing the principles of clean reactivity will be essential in paving the way for a more sustainable and responsible world.

在化学和环境科学领域，术语clean reactivity指的是一种物质参与化学反应的能力，而不会产生有害的副产品或污染物。随着我们努力发展可持续的实践并减少生态足迹，这一概念变得越来越重要。clean reactivity的追求不仅限于工业过程，还扩展到日常生活的各个方面，包括能源生产、废物管理，甚至消费品。clean reactivity最重要的应用之一是在可再生能源领域。例如，太阳能电池旨在利用阳光并将其转化为电力，尽量减少对环境的影响。这些电池中使用的材料因其clean reactivity而被选择，以确保它们能够高效地转换能量，而不会释放有毒物质。类似地，氢燃料电池基于clean reactivity的原理，氢与氧反应生成电力，唯一的副产品是水。这种反应示范了理想的场景，即可以在不损害空气质量或导致气候变化的情况下产生能量。相比之下，传统化石燃料表现出较差的clean reactivity。当它们燃烧时，会向大气中释放二氧化碳、二氧化硫和其他有害污染物。这不仅加剧了全球变暖，还对生物体构成了重大健康风险。因此，向展示clean reactivity的材料和过程过渡对于减轻污染的不利影响至关重要。此外，clean reactivity的概念在废物管理领域也很相关。许多现代回收技术旨在最大限度地回收材料，同时最小化污染。通过采用优先考虑clean reactivity的方法，我们可以确保回收材料保持其质量和可用性。例如，先进的分拣技术可以有效地将可回收物与不可回收物分开，从而允许更清洁的回收流，减少对新原材料的需求。在日常消费选择中，clean reactivity的理念可以引导个人朝着更环保的选项前进。标记为生物降解或由可再生资源制成的产品通常展示了clean reactivity，因为它们自然降解而不留下有害残留物。通过选择这样的产品，消费者可以为更可持续的经济做出贡献，并鼓励制造商采取更环保的做法。总之，在我们努力创造可持续未来的过程中，clean reactivity的重要性不容小觑。无论是在能源生产、废物管理还是消费行为中，优先考虑clean reactivity都能带来更健康的生态系统和更清洁的星球。随着我们继续创新并寻求全球挑战的解决方案，拥抱clean reactivity的原则将是为更可持续和负责任的世界铺平道路的关键。