furfuraldehyde
简明释义
英[/ˌfɜr.fjʊəˈræl.haɪd/]美[/ˌfɜr.fjʊəˈræl.haɪd/]
n. 糠醛
英英释义
Furfuraldehyde is an organic compound derived from furan, characterized by a five-membered aromatic ring with a formyl group (-CHO) attached. | 呋喃醛是一种有机化合物,来源于呋喃,具有一个带有甲酰基(-CHO)附着的五元芳香环。 |
单词用法
同义词
| 糠醛 | Furfural is commonly used as a solvent and in the production of resins. | 糠醛常用作溶剂和树脂的生产。 | |
| 2-糠醛 | 2-furaldehyde can be used in the synthesis of various chemical compounds. | 2-糠醛可用于合成各种化合物。 |
反义词
| 醇 | 乙醇是饮料中常用的醇。 | ||
| 饱和化合物 | 像己烷这样的饱和化合物被用作溶剂。 |
例句
1.Objective: To find the changing regularity of 5-hydroxymethyl furfuraldehyde (5-hmf) content in Radix Rehmanniae steamed for different time.
目的:考察地黄清蒸不同时间5 -羟甲基糠醛含量的变化规律。
2.Objective: To find the changing regularity of 5-hydroxymethyl furfuraldehyde (5-hmf) content in Radix Rehmanniae steamed for different time.
目的:考察地黄清蒸不同时间5 -羟甲基糠醛含量的变化规律。
3.The chemical process involved the conversion of biomass into furfuraldehyde, which is a key intermediate in producing various chemicals.
该化学过程涉及将生物质转化为糠醛,这是生产各种化学品的关键中间体。
4.The synthesis of furfuraldehyde from agricultural residues is an important step towards sustainable chemistry.
从农业废弃物合成糠醛是可持续化学的重要一步。
5.The presence of furfuraldehyde in the reaction mixture indicates that the process is proceeding correctly.
反应混合物中存在糠醛表明该过程正在正确进行。
6.In the food industry, furfuraldehyde can be used as a flavoring agent due to its sweet aroma.
在食品工业中,糠醛因其甜美的香气而可用作香料。
7.Researchers are exploring the use of furfuraldehyde in the development of biodegradable plastics.
研究人员正在探索在可生物降解塑料开发中使用糠醛。
作文
Furfuraldehyde, a compound derived from agricultural byproducts, has garnered attention in both industrial and academic circles. This organic compound is primarily produced from the hydrolysis of pentosans found in various biomass sources such as corncobs, oat hulls, and sugarcane bagasse. The significance of furfuraldehyde (呋喃甲醛) lies not only in its utility as an intermediate in chemical synthesis but also in its potential applications in biofuels and green chemistry. In recent years, researchers have been exploring ways to optimize the production processes of furfuraldehyde (呋喃甲醛) to enhance yield and reduce environmental impact.One of the most notable characteristics of furfuraldehyde (呋喃甲醛) is its distinctive aroma, which is often described as sweet and nutty. This property makes it an interesting candidate for use in the fragrance industry, where it can be incorporated into perfumes and other scented products. Furthermore, furfuraldehyde (呋喃甲醛) is known for its ability to act as a solvent and a reagent in various chemical reactions, making it a valuable asset in laboratories and manufacturing plants.In addition to its industrial applications, furfuraldehyde (呋喃甲醛) has been studied for its potential health benefits. Some studies suggest that it possesses antimicrobial properties, which could be beneficial in developing new preservatives or treatments for infections. However, it is essential to approach these findings with caution, as further research is needed to fully understand the implications of using furfuraldehyde (呋喃甲醛) in medicinal contexts.The environmental impact of producing furfuraldehyde (呋喃甲醛) is another critical area of research. As industries seek more sustainable practices, the focus on utilizing renewable resources for chemical production has increased. By sourcing furfuraldehyde (呋喃甲醛) from waste materials, companies can reduce their reliance on fossil fuels and contribute to a circular economy. This shift not only helps in minimizing waste but also aids in lowering greenhouse gas emissions associated with traditional chemical manufacturing processes.Moreover, the versatility of furfuraldehyde (呋喃甲醛) extends to the field of polymer science. It can be used to create various polymers and resins that are essential in manufacturing plastics and coatings. The development of bioplastics from furfuraldehyde (呋喃甲醛) is an exciting area of study, as it aligns with global efforts to reduce plastic pollution and promote biodegradable alternatives.In conclusion, furfuraldehyde (呋喃甲醛) is a compound with a wide range of applications and benefits. Its role in sustainable chemistry, potential health advantages, and versatility in industrial processes make it a significant focus of current research. As we continue to explore the possibilities of furfuraldehyde (呋喃甲醛), it is crucial to balance its benefits with safety and environmental considerations. The future of this compound looks promising, and it may play a pivotal role in advancing green technology and sustainable practices across various sectors.
呋喃甲醛(furfuraldehyde)是一种源自农业副产品的化合物,在工业和学术界引起了广泛关注。这种有机化合物主要通过水解从玉米芯、燕麦壳和甘蔗渣等各种生物质来源中的戊糖聚糖中提取。furfuraldehyde(呋喃甲醛)的重要性不仅在于其作为化学合成中间体的实用性,还在于其在生物燃料和绿色化学中的潜在应用。近年来,研究人员一直在探索优化furfuraldehyde(呋喃甲醛)生产工艺的方法,以提高产量并减少环境影响。furfuraldehyde(呋喃甲醛)最显著的特征之一是其独特的香气,常被描述为甜美和坚果味。这一特性使其成为香水行业的一个有趣候选者,可以被纳入香水和其他香氛产品中。此外,furfuraldehyde(呋喃甲醛)还以其作为溶剂和试剂在各种化学反应中的能力而闻名,使其在实验室和制造厂中成为宝贵的资产。除了工业应用外,furfuraldehyde(呋喃甲醛)还因其潜在健康益处而受到研究。有些研究表明,它具有抗微生物特性,这可能有助于开发新的防腐剂或感染治疗方法。然而,必须谨慎对待这些发现,因为还需要进一步研究以充分理解在医学背景下使用furfuraldehyde(呋喃甲醛)的含义。生产furfuraldehyde(呋喃甲醛)的环境影响是另一个重要的研究领域。随着行业寻求更可持续的实践,对利用可再生资源进行化学生产的关注增加。通过从废物材料中获取furfuraldehyde(呋喃甲醛),公司可以减少对化石燃料的依赖,并为循环经济做出贡献。这一转变不仅有助于减少废物,还能降低与传统化学制造过程相关的温室气体排放。此外,furfuraldehyde(呋喃甲醛)的多功能性扩展到聚合物科学领域。它可用于制造各种塑料和涂料所需的聚合物和树脂。从furfuraldehyde(呋喃甲醛)开发生物塑料是一个令人兴奋的研究领域,因为它与全球减少塑料污染和推动可生物降解替代品的努力相一致。总之,furfuraldehyde(呋喃甲醛)是一种具有广泛应用和益处的化合物。它在可持续化学中的作用、潜在的健康优势以及在工业过程中的多功能性使其成为当前研究的重要焦点。随着我们继续探索furfuraldehyde(呋喃甲醛)的可能性,平衡其益处与安全和环境考虑至关重要。这种化合物的未来看起来很有希望,可能在推动各个领域的绿色技术和可持续实践方面发挥关键作用。
