furaldehyde
简明释义
α-呋喃甲醛
[有化] 糠醛
英英释义
单词用法
呋喃醛生产 | |
呋喃醛衍生物 | |
呋喃醛合成 | |
呋喃醛反应 |
同义词
| 糠醛 | Furfural is commonly used as a solvent in the production of resins. | 糠醛通常用作树脂生产中的溶剂。 | |
| 2-糠醛 | 2-furaldehyde can be found in various chemical synthesis processes. | 2-糠醛可以在各种化学合成过程中找到。 |
反义词
| 醇 | 乙醇是一种常见的用于饮料的醇。 | ||
| 酮 | 丙酮是一种著名的酮,通常用作溶剂。 |
例句
1.The structures of these compounds were determined as friedelin(1), 5 hydroxymethyl furaldehyde(2), limonin(3), nomilin(4), daucosterol(5)by spectral methods.
经光谱数据的分析,分别鉴定为木栓酮(1)、5羟甲基糠醛(2 )、柠檬苦素(3)、闹米林(4 )及胡萝卜苷(5 ) 。
2.The structures of these compounds were determined as friedelin(1), 5 hydroxymethyl furaldehyde(2), limonin(3), nomilin(4), daucosterol(5)by spectral methods.
经光谱数据的分析,分别鉴定为木栓酮(1)、5羟甲基糠醛(2 )、柠檬苦素(3)、闹米林(4 )及胡萝卜苷(5 ) 。
3.The yield of furil increased to 91.7%(from 2-furaldehyde) after improvements in experimental procedure.
通过改进实验条件,使合成糠偶酰的产率提高到91.7%。
4.The formation, measurement of 2 furaldehyde and 5 hydroxymethyl 2 furaldehyde in date and their influences on the dry date were discussed.
还讨论了红枣中糠醛和5羟甲基呋喃甲醛的形成、测定及其对干枣品质的影响。
5.In the food industry, furaldehyde is sometimes used as a flavoring agent in baked goods.
在食品工业中,呋喃醛有时被用作烘焙食品的调味剂。
6.Researchers are studying the effects of furaldehyde on human health due to its potential toxicity.
研究人员正在研究呋喃醛对人类健康的影响,因为它可能具有毒性。
7.The chemical reaction produced a significant amount of furaldehyde, which is known for its strong aroma.
这种化学反应产生了大量的呋喃醛,它以其强烈的香气而闻名。
8.The laboratory synthesized furaldehyde from natural sources for further experimentation.
实验室从天然来源合成了呋喃醛以进行进一步实验。
9.Due to its reactivity, furaldehyde is often used in organic synthesis.
由于其反应性,呋喃醛常用于有机合成。
作文
Furaldehyde, also known as furfural, is an organic compound derived from agricultural byproducts such as corn husks, oat hulls, and sugarcane bagasse. This compound has garnered significant attention in various fields, including chemistry, materials science, and biofuels. Understanding the properties and applications of furaldehyde (呋喃醛) can help us appreciate its importance in both industrial processes and environmental sustainability.The chemical structure of furaldehyde (呋喃醛) consists of a furan ring with an aldehyde functional group. This unique structure contributes to its reactivity and versatility as a building block for synthesizing other chemicals. In the laboratory, furaldehyde (呋喃醛) can be used to produce a variety of derivatives that are valuable in pharmaceuticals, agrochemicals, and polymer chemistry. For instance, it can be transformed into furan resins, which are utilized in the production of high-performance materials due to their excellent thermal stability and mechanical properties.One of the most promising applications of furaldehyde (呋喃醛) is in the field of biofuels. As the world seeks to reduce its dependence on fossil fuels, researchers are exploring the potential of converting biomass into renewable energy sources. Furaldehyde (呋喃醛) can be produced through the dehydration of pentoses, which are sugars found in plant materials. This process not only provides a sustainable way to generate energy but also adds value to agricultural waste products.Moreover, furaldehyde (呋喃醛) has been investigated for its use in creating bio-based solvents and plasticizers, which are essential in various industrial applications. The development of these eco-friendly alternatives is crucial as industries strive to minimize their environmental impact. By utilizing furaldehyde (呋喃醛), manufacturers can reduce their reliance on petroleum-based products, thus contributing to a more sustainable future.Despite its many advantages, the production and use of furaldehyde (呋喃醛) do come with challenges. For instance, the extraction and purification processes can be complex and may require significant energy input. Additionally, there are concerns regarding the toxicity of furaldehyde (呋喃醛), particularly in high concentrations. Therefore, ongoing research is focused on optimizing these processes to ensure safety and efficiency.In conclusion, furaldehyde (呋喃醛) is a vital organic compound with diverse applications in various industries. Its role in the development of biofuels and sustainable materials highlights its potential to contribute to a greener economy. As we continue to explore and innovate, understanding compounds like furaldehyde (呋喃醛) will be essential in addressing the challenges of modern society, particularly in the realms of sustainability and environmental responsibility.
呋喃醛,又称为呋喃醛,是一种有机化合物,源自玉米外壳、燕麦壳和甘蔗渣等农业副产品。该化合物在化学、材料科学和生物燃料等多个领域引起了广泛关注。理解furaldehyde(呋喃醛)的性质和应用可以帮助我们欣赏其在工业过程和环境可持续性中的重要性。furaldehyde(呋喃醛)的化学结构由一个含醛基的呋喃环组成。这种独特的结构使其具有反应性和多功能性,可以作为合成其他化学品的构建块。在实验室中,furaldehyde(呋喃醛)可用于生产多种衍生物,这些衍生物在制药、农用化学品和聚合物化学中具有重要价值。例如,它可以转化为呋喃树脂,这些树脂因其优异的热稳定性和机械性能而被用于高性能材料的生产。furaldehyde(呋喃醛)最有前途的应用之一是在生物燃料领域。随着世界寻求减少对化石燃料的依赖,研究人员正在探索将生物质转化为可再生能源的潜力。furaldehyde(呋喃醛)可以通过五碳糖的脱水反应生产,而这些五碳糖是植物材料中存在的糖。这一过程不仅提供了一种可持续的能源生成方式,还为农业废弃物增值。此外,furaldehyde(呋喃醛)也被研究用于制造生物基溶剂和增塑剂,这些在各种工业应用中至关重要。开发这些环保替代品对于各行业努力减少环境影响至关重要。通过利用furaldehyde(呋喃醛),制造商可以减少对石油基产品的依赖,从而为更可持续的未来做出贡献。尽管有许多优点,furaldehyde(呋喃醛)的生产和使用也面临挑战。例如,提取和纯化过程可能很复杂,可能需要大量能量。此外,对于furaldehyde(呋喃醛)在高浓度下的毒性也存在担忧。因此,当前的研究集中在优化这些过程,以确保安全性和效率。总之,furaldehyde(呋喃醛)是一种重要的有机化合物,在各个行业中具有多样化的应用。它在生物燃料和可持续材料开发中的作用突显了其为绿色经济做出贡献的潜力。随着我们继续探索和创新,理解像furaldehyde(呋喃醛)这样的化合物将是应对现代社会挑战的关键,特别是在可持续性和环境责任领域。
