semimicro
简明释义
英[ˌsemɪˈmaɪkrəʊ]美[ˌsemaɪˈmaɪkro]
半微量的
adj. 半微量的
英英释义
Referring to a scale of measurement or analysis that is smaller than micro but larger than macro, typically used in scientific contexts. | 指一种测量或分析的尺度,介于微观和宏观之间,通常用于科学背景中。 |
单词用法
半微量化学 | |
半微量滴定 | |
半微量反应 | |
半微量设备 | |
半微量数量 | |
半微量程序 |
同义词
| 半微型 | 半微型方法 |
反义词
| 宏观 | macro analysis is often used in economics to study overall trends. | 宏观分析通常用于经济学中研究整体趋势。 | |
| 大规模 | 大规模生产可以带来规模经济。 |
例句
1.The article focuses on quantity analysis, discussion of using constant quantity instrument to do semimicro chemical analysis experiment.
本文围绕定量分析实验中,利用常量仪器进行半微量化学分析进行探讨。
2.The article focuses on quantity analysis, discussion of using constant quantity instrument to do semimicro chemical analysis experiment.
本文围绕定量分析实验中,利用常量仪器进行半微量化学分析进行探讨。
3.The semimicro 半微量 technique is essential for analyzing trace elements in environmental samples.
该semimicro 半微量 技术对于分析环境样品中的微量元素至关重要。
4.For our chemistry project, we focused on semimicro 半微量 titration methods to improve precision.
在我们的化学项目中,我们专注于semimicro 半微量 滴定方法,以提高精确度。
5.The semimicro 半微量 approach allows for the use of smaller sample sizes, which can be more economical.
这种semimicro 半微量 方法允许使用更小的样本量,这可以更加经济。
6.In the laboratory, we used a semimicro 半微量 balance to measure small quantities of chemicals accurately.
在实验室中,我们使用了一台semimicro 半微量 天平来准确测量少量化学品。
7.Researchers prefer semimicro 半微量 methods when working with limited resources.
研究人员在资源有限时更喜欢使用semimicro 半微量 方法。
作文
In the field of chemistry, the term semimicro refers to a scale that is intermediate between macro and micro measurements. This concept is particularly important in analytical chemistry, where precise measurements are crucial for accurate results. The semimicro scale typically involves using smaller quantities of substances than those used in traditional macro-scale experiments, but not as small as those in micro-scale experiments. This allows chemists to conduct experiments with reduced material costs while still achieving reliable data.One of the primary advantages of semimicro techniques is the ability to minimize waste. In an era where sustainability is increasingly important, using smaller amounts of chemicals is not only economical but also environmentally friendly. For instance, when conducting titrations or syntheses, using semimicro methods means that less reagent is consumed, which can significantly reduce the overall environmental impact of chemical experiments.Moreover, semimicro methods can enhance safety in the laboratory. Working with smaller quantities of hazardous materials reduces the risk of exposure and accidents. Laboratories often face strict regulations regarding the use and disposal of chemicals, and adopting semimicro techniques can help researchers stay compliant while still performing their work effectively.Another aspect to consider is the precision and accuracy that semimicro techniques can offer. While micro-scale experiments might require highly specialized equipment and meticulous handling, semimicro methods often utilize standard laboratory tools, making them more accessible to a wider range of laboratories. This accessibility allows for broader application of these techniques across different fields of study, including pharmaceuticals, environmental science, and materials research.Additionally, the semimicro approach facilitates educational opportunities. Students and emerging chemists can learn to perform complex experiments without the need for expensive, high-tech equipment. By using semimicro techniques, educational institutions can provide hands-on experience that prepares students for real-world applications in various scientific fields.In conclusion, the concept of semimicro plays a vital role in modern chemistry by bridging the gap between macro and micro scales. Its benefits, including cost-effectiveness, reduced waste, enhanced safety, and educational accessibility, make it an attractive option for researchers and educators alike. As the scientific community continues to prioritize sustainability and efficiency, the importance of semimicro techniques will likely grow, leading to further innovations and advancements in the field of chemistry. Understanding and utilizing semimicro methods can empower scientists to conduct meaningful research while being mindful of resource consumption and environmental impacts.
在化学领域,术语semimicro指的是介于宏观和微观测量之间的尺度。这个概念在分析化学中特别重要,因为精确的测量对于获得准确的结果至关重要。semimicro尺度通常涉及使用比传统宏观实验更少量的物质,但又不如微观实验那么小。这使得化学家能够以降低材料成本的方式进行实验,同时仍能获得可靠的数据。semimicro技术的主要优势之一是能够减少浪费。在可持续性日益重要的时代,使用更少的化学品不仅经济实惠,而且对环境友好。例如,在进行滴定或合成时,使用semimicro方法意味着消耗的试剂更少,这可以显著降低化学实验的整体环境影响。此外,semimicro方法可以提高实验室的安全性。使用较小数量的危险材料可以降低暴露和事故的风险。实验室往往面临关于化学品使用和处置的严格规定,而采用semimicro技术可以帮助研究人员在有效开展工作的同时保持合规。另一个需要考虑的方面是semimicro技术所提供的精确度和准确性。虽然微观实验可能需要高度专业化的设备和细致的操作,但semimicro方法通常使用标准实验室工具,使其更加易于更广泛的实验室应用。这种可及性允许这些技术在制药、环境科学和材料研究等不同研究领域得到更广泛的应用。此外,semimicro方法还促进了教育机会。学生和新兴的化学家可以在不需要昂贵高科技设备的情况下学习进行复杂实验。通过使用semimicro技术,教育机构可以提供实践经验,为学生准备在各个科学领域的实际应用。总之,semimicro的概念在现代化学中发挥着至关重要的作用,弥合了宏观和微观尺度之间的差距。其优点,包括成本效益、减少浪费、增强安全性和教育可及性,使其成为研究人员和教育工作者都青睐的选择。随着科学界继续优先考虑可持续性和效率,semimicro技术的重要性可能会不断增长,导致该领域进一步的创新和进步。理解和利用semimicro方法可以使科学家在关注资源消耗和环境影响的同时开展有意义的研究。
