microparticle

简明释义

英[ˌmaɪkrəʊˈpɑːtɪkl]美[,maɪkroʊ'pɑːrtɪkl]

n. 微观粒子，微粒

英英释义

单词用法

同义词

反义词

例句

1.The structure and properties of microparticle retention aids were studied.

研究了该微粒助留剂的结构与性能。

2.This paper introduces the common calibration procedure of automated microparticle enzyme immunoassay analyzer.

本文阐述了全自动快速微粒子酶免分析仪常用的校准步骤。

3.Objective To construct tissue engineered cartilage by combining allogenic cartilage microparticle acellular tissue matrix and chondrocytes.

目的将软骨细胞与异体软骨微粒脱细胞基质相结合，构建组织工程软骨。

4.The plasma levels of CEA and CA19-9 were determined by microparticle enzyme-linked immunoassay (MEIA) before operation.

微粒子酶联免疫荧光法（MEIA）检测大肠癌患者术前血浆CEA、CA19-9水平。

5.The emergence of super microparticle gives decisive effect on the application research of such industries as chemical, ceramic, electro magnetic, bio medical, etc.

超微粒子的出现对化工、陶瓷、电磁、光学、生物医学等多种行业的应用研究有着举足轻重的影响。

6.This essay discusses the effect of thinking in image in the seek of microparticle from the angd of history of science, and deeply analyzes the concrete display and character of the creative thinking.

从科学史的角度论述了形象思维在量子力学建立过程中的作用，并结合路易斯·德布罗意、海森堡以及薛定谔的研究风格分析了这种创造性思维形态的具体表现和特征。

7.The rapid expansion of supercritical solution (RESS) and the gas anti-solvent (gas) precipitation are the new and promising methods of microparticle formation.

快速膨胀超临界流体溶液(RESS)过程和以超临界流体为稀释膨胀剂(GAS)过程是制备微细颗粒的新技术。

8.The invention discloses high-obdurability highway concrete, which has the ingredients of cement, coarse aggregate, fine aggregate, water, modified steel fiber and rubber microparticle.

本发明公开了一种高强韧性的公路用混凝土，其配料为水泥、粗集料、细集料、水、改性钢纤维、橡胶微粒。

9.Microparticle production technique is presently a major development of dense gas antisolvent precipitation applications, mainly in the pharmaceutical, food, cosmetic and specialty chemical industries.

稠密气体抗溶剂沉淀在微粒制备中得到广泛应用，主要用于药物、食品、化妆品和一系列精细化学品中。

10.Researchers found that certain microparticles 微粒 can act as carriers for genetic material in gene therapy.

研究人员发现某些微粒可以作为基因治疗中遗传材料的载体。

11.In the lab, scientists are studying how microparticles 微粒 can be used to deliver drugs more effectively.

在实验室中，科学家正在研究如何更有效地利用微粒输送药物。

12.The microparticle 微粒 technology has revolutionized the cosmetics industry by allowing for better absorption of ingredients.

这种微粒技术彻底改变了化妆品行业，使成分的吸收更加有效。

13.The researchers discovered that the presence of microparticles 微粒 in the air can significantly affect respiratory health.

研究人员发现，空气中存在的微粒可能会显著影响呼吸健康。

14.Environmental samples were analyzed for microparticles 微粒 to assess pollution levels.

对环境样本进行了分析，以评估污染水平中的微粒。

作文

In recent years, the study of microparticle (微粒) technology has gained significant attention in various scientific fields. These tiny particles, which typically range from 1 to 1000 micrometers in size, are not only fascinating but also hold immense potential for numerous applications. One of the most promising areas of research involving microparticles (微粒) is in the field of medicine. For instance, microparticles (微粒) can be used as carriers for drug delivery systems. By encapsulating drugs within these particles, researchers can enhance the bioavailability of medications and target specific areas in the body, minimizing side effects. This targeted approach is particularly beneficial in cancer treatment, where precise delivery of chemotherapy drugs can significantly improve patient outcomes.Additionally, microparticles (微粒) play a crucial role in environmental science. They can be found in various forms, such as pollutants or byproducts of industrial processes. Understanding the behavior and impact of these microparticles (微粒) is essential for developing effective strategies to mitigate their harmful effects on ecosystems. For example, studies have shown that certain microparticles (微粒) can accumulate in marine environments, posing risks to aquatic life and potentially entering the food chain.Moreover, the use of microparticles (微粒) in material science is another exciting area of exploration. Researchers are investigating how these tiny particles can improve the properties of materials, making them stronger, lighter, or more durable. For instance, incorporating microparticles (微粒) into construction materials can enhance their strength and reduce the overall weight, leading to more efficient building practices.The potential applications of microparticles (微粒) extend beyond just medicine and environmental science; they are also making waves in the field of electronics. Engineers are exploring the use of microparticles (微粒) in the development of advanced sensors and components for electronic devices. By manipulating the properties of these tiny particles, it is possible to create more sensitive and efficient devices that can revolutionize industries ranging from telecommunications to consumer electronics.Despite the numerous benefits associated with microparticles (微粒), there are also challenges that need to be addressed. The production and disposal of these particles can pose environmental risks if not managed properly. Therefore, it is crucial for researchers and policymakers to work together to establish guidelines for the responsible use of microparticles (微粒) in various applications.In conclusion, the study of microparticles (微粒) is a rapidly evolving field that holds great promise for the future. From medical advancements to environmental protection and technological innovations, microparticles (微粒) are at the forefront of scientific research. As we continue to explore their potential, it is essential to remain mindful of the challenges they present and strive for sustainable practices that will benefit both society and the environment.