triazine

简明释义

英[ˈtraɪəziːn;traɪˈæziːn;-zɪn]美[ˈtraɪəˌzin]

n. [有化] 三嗪

英英释义

单词用法

同义词

反义词

例句

1.Dihydro-1, 3, 5-triazine amine derivatives and their therapeutic USES.

二氢- 1,3,5 -三嗪的含氨基衍生物及其治疗应用。

2.Triazine herbicides have been widely used to control the growth of weeds in agriculture.

三嗪类除草剂是一类被广泛应用于农业上，来控制杂草生长的除草剂。

3.The analysing methods of a triazine herbicide, metribuzin, by gas chromatography and high performance liquid chromatography are introduced in this paper.

本文介绍了三氮苯类除草剂-赛克津的气相色谱法和高效液相色谱法的分析方法。

4.Triazine is a type of heterocyclic organic compounds, it is important to ring nitrogen organic chemical raw materials.

是一种三嗪类含氮杂环有机化合物，重要的氮杂环有机化工原料。

5.Method for producing the trisodium salt of 2,4,6-trimercapto-s-triazine.

用于制备2，4，6-三巯基均三嗪的三钠盐的方法。

6.The process consists of treating the work piece with a coat that forms on the surface from the gaseous products of sublimation and decomposition of a triazine polymer reagent in a closed volume.

该工艺是靠在封闭体积中由三嗪聚合物试剂所升华和分解的气相产物在工件表面形成涂层而处理工件的。

7.The herbicide contains a compound known as triazine, which is effective in controlling broadleaf weeds.

该除草剂含有一种称为三嗪的化合物，能有效控制阔叶杂草。

8.The synthesis of triazine compounds has gained popularity in organic chemistry.

在有机化学中，三嗪化合物的合成变得越来越受欢迎。

9.Many agricultural products utilize triazine derivatives for their pest control properties.

许多农业产品利用三嗪衍生物的害虫控制特性。

10.Certain triazine herbicides have been banned due to their environmental impact.

某些三嗪除草剂因其对环境的影响而被禁止。

11.Researchers are studying the effects of triazine exposure on aquatic ecosystems.

研究人员正在研究三嗪暴露对水生生态系统的影响。

作文

Triazine is a chemical compound that belongs to a class of heterocyclic compounds. It consists of a six-membered ring containing three nitrogen atoms and three carbon atoms. The unique structure of triazine makes it an essential component in various fields, including agriculture, pharmaceuticals, and material science. In this essay, we will explore the significance of triazine in these areas and its impact on our daily lives.In agriculture, triazine compounds are widely used as herbicides. They work by inhibiting photosynthesis in plants, which ultimately leads to their death. This property makes triazine-based herbicides particularly effective against a variety of weeds that threaten crop yields. For instance, atrazine, one of the most common triazine herbicides, is extensively used in corn production. Its effectiveness has led to increased agricultural productivity, helping farmers to grow more food with fewer resources. However, the use of triazine herbicides has also raised environmental concerns, particularly regarding water contamination and effects on non-target species. Therefore, while triazine plays a crucial role in modern agriculture, its application must be managed carefully to minimize negative impacts on ecosystems.In the pharmaceutical industry, triazine derivatives have gained attention for their potential therapeutic applications. Research has shown that certain triazine compounds exhibit anti-cancer properties, making them candidates for drug development. For example, some triazine analogs have been studied for their ability to inhibit specific enzymes involved in cancer cell proliferation. This research highlights the importance of triazine not only as a chemical structure but also as a foundation for developing new medications that could improve patient outcomes. As scientists continue to investigate the biological activity of triazine compounds, we may see new treatments emerge that can combat various diseases.Furthermore, triazine compounds are also utilized in material science, particularly in the development of polymers and other materials. The incorporation of triazine into polymer matrices can enhance thermal stability and mechanical properties, making them suitable for high-performance applications. For instance, triazine-based resins are used in the manufacturing of advanced composites for aerospace and automotive industries. These materials offer lightweight yet durable solutions that can withstand extreme conditions. The versatility of triazine in creating innovative materials demonstrates its significance beyond just chemical reactions.In conclusion, triazine is a multifaceted compound that plays a vital role in various sectors, including agriculture, pharmaceuticals, and material science. Its effectiveness as a herbicide has transformed agricultural practices, while its potential in drug development offers hope for future medical advancements. Additionally, triazine contributes to the creation of advanced materials that meet the demands of modern technology. As we continue to explore the capabilities of triazine, it is essential to balance its benefits with responsible usage to ensure a sustainable future. Understanding the implications of triazine in our lives helps us appreciate the intricate connections between chemistry and everyday activities.

三嗪是一种化合物，属于杂环化合物的一个类别。它由一个含有三个氮原子和三个碳原子的六元环组成。三嗪的独特结构使其在农业、制药和材料科学等多个领域中成为重要成分。在这篇文章中，我们将探讨三嗪在这些领域中的重要性以及它对我们日常生活的影响。在农业中，三嗪化合物广泛用作除草剂。它们通过抑制植物的光合作用来起作用，最终导致植物的死亡。这一特性使得基于三嗪的除草剂在有效对抗威胁作物产量的各种杂草方面特别有效。例如，阿特拉津是最常见的三嗪除草剂之一，广泛用于玉米生产。它的有效性导致农业生产力的提高，帮助农民以更少的资源种植更多的食物。然而，三嗪除草剂的使用也引发了环境问题，特别是水污染和对非目标物种的影响。因此，尽管三嗪在现代农业中发挥着至关重要的作用，但其应用必须谨慎管理，以最小化对生态系统的负面影响。在制药行业，三嗪衍生物因其潜在的治疗应用而受到关注。研究表明，某些三嗪化合物表现出抗癌特性，使其成为药物开发的候选者。例如，一些三嗪类似物已被研究用于抑制参与癌细胞增殖的特定酶。这项研究突显了三嗪的重要性，不仅作为化学结构，而且作为开发新药物的基础，这些药物可以改善患者的预后。随着科学家们继续研究三嗪化合物的生物活性，我们可能会看到新的治疗方法出现，以对抗各种疾病。此外，三嗪化合物还被用于材料科学，特别是在聚合物和其他材料的开发中。将三嗪纳入聚合物基体可以增强热稳定性和机械性能，使其适合高性能应用。例如，基于三嗪的树脂用于制造航空航天和汽车工业的先进复合材料。这些材料提供轻便但耐用的解决方案，能够承受极端条件。三嗪在创造创新材料方面的多功能性展示了其超越化学反应的意义。总之，三嗪是一种多面化合物，在农业、制药和材料科学等多个领域发挥着至关重要的作用。作为除草剂的有效性改变了农业实践，而其在药物开发中的潜力为未来的医学进步带来了希望。此外，三嗪还助力于高级材料的创造，以满足现代技术的需求。随着我们继续探索三嗪的能力，平衡其益处与负责任的使用至关重要，以确保可持续的未来。理解三嗪在我们生活中的影响有助于我们欣赏化学与日常活动之间复杂的联系。