molecularly

简明释义

英[məˈlɒkjʊləli]美[məˈlɛkjələrli]

分子地

分子构成地

英英释义

单词用法

同义词

反义词

例句

1.In the present work, a simple polymerization strategy allowing the obtainment of molecularly imprinted polymeric fibers to be used in SPME is proposed.

目前的研究工作提出一种简单聚合技术，通过该技术可得到用于SPME的分子印迹聚合纤维。

2.Initially the amyloid appears as a long protein that is then cut by enzymes into shorter fragments that become molecularly sticky and clump together, forming a plaque.

刚开始，类乙型蛋白以长条状的形式出现，接著被一种酵素分解为分子般黏状的细小碎片，然后纠结在一起，形成了所谓的“病灶”。

3.This review attempts to concisely summarize the molecularly targeted therapy of advanced hepatocellular carcinoma.

本文针对肝癌的分子靶向治疗的研究进展做一综述。

4.The invention provides fiber base protein molecularly imprinted polymer aquagel and a preparation method thereof.

本发明提供了一种纤维基蛋白质分子印迹聚合物水凝胶及其制备方法。

5.OBJECTIVE To study the molecular recognition properties of the molecularly imprinted polymer(MIP) as the adsorbent of solid-phase extraction(SPE).

目的将分子烙印聚合物（MIP）作为固相萃取的吸附剂，研究其分子识别性能。

6.The recent progress of electrochemical sensor based on molecularly imprinted sensor has been reviewed in this paper.

本文综述了分子印迹电化学传感器的制备及其在电分析化学领域中的应用研究。

7.When used in solid phase extraction, the ampicillin molecularly imprinted polymer microspheres have such advantages as high column efficiency and high selectivity.

本发明具有简单、高效制备出具有良好分子识别性能的分子印 迹聚合物微球优点。

8.The molecularly imprinted polymer was investigated in equilibrium binding experiment to evaluate its adsorption property and selective recognition.

运用平衡结合实验研究了聚合物的吸附特性和选择性识别能力。

9.Researchers are studying how proteins interact 分子地 within the cell.

研究人员正在研究蛋白质在细胞内如何分子地相互作用。

10.The substance was analyzed 分子地 to understand its composition.

该物质被分子地分析以了解其成分。

11.Understanding how substances bond 分子地 is crucial in chemistry.

理解物质如何分子地结合在化学中至关重要。

12.To improve efficiency, the process was optimized 分子地 at the atomic level.

为了提高效率，该过程在原子层面上分子地进行了优化。

13.The drug works 分子地 to target specific receptors in the body.

这种药物分子地作用于身体中特定的受体。

作文

Understanding the world around us often begins at the smallest level: the molecular level. When we think of substances, we usually consider their macroscopic properties—color, texture, and state. However, to truly grasp how these properties arise, we must delve deeper into the realm of chemistry, where everything is fundamentally constructed from molecules. This is where the term molecularly">molecularly comes into play. It refers to the interactions, structures, and behaviors of molecules that define the characteristics of matter.At the molecularly">molecularly level, substances are made up of atoms bonded together in various arrangements. These arrangements can lead to vastly different properties. For example, both diamond and graphite are composed entirely of carbon atoms, yet they exhibit strikingly different physical characteristics due to their molecularly">molecularly distinct structures. Diamond forms a rigid three-dimensional lattice, making it incredibly hard, while graphite has layers of carbon atoms that can slide over one another, giving it a slippery feel.Moreover, understanding interactions at the molecularly">molecularly level allows scientists to manipulate materials for specific purposes. In medicine, for instance, drug design relies heavily on knowledge of how molecules interact with biological systems. A drug's efficacy often depends on its ability to bind to specific targets within the body, which is determined by its molecularly">molecularly defined structure. This precise interaction can lead to the desired therapeutic effects, illustrating the importance of molecular understanding in healthcare.In addition to medicine, advancements in technology also benefit from a molecularly">molecularly informed perspective. Nanotechnology, for example, involves manipulating matter at an atomic or molecularly">molecularly small scale to create new materials with unique properties. These innovations can lead to stronger, lighter materials or more efficient energy sources, showcasing how profound the implications of molecularly">molecularly based research can be.Furthermore, environmental science increasingly relies on molecularly">molecularly focused studies to address issues such as pollution and climate change. Understanding the molecularly">molecularly driven mechanisms behind greenhouse gas emissions or the breakdown of pollutants can lead to more effective strategies for mitigation and remediation. By targeting specific molecules responsible for harmful effects, researchers can develop solutions that are both efficient and sustainable.In conclusion, the concept of being molecularly">molecularly aware is essential across various fields of study. From understanding the basic properties of materials to developing advanced technologies and addressing global challenges, the implications of molecularly">molecularly informed research are vast. As we continue to explore the intricacies of the molecular world, we unlock new possibilities for innovation and improvement in our daily lives. Thus, fostering a deeper comprehension of molecularly">molecularly driven processes will undoubtedly pave the way for future discoveries and advancements.

理解我们周围的世界往往始于最小的层面：分子层面。当我们考虑物质时，通常会考虑它们的宏观特性——颜色、纹理和状态。然而，要真正掌握这些特性是如何产生的，我们必须深入化学领域，在那里，一切都是由分子构成的。这就是molecularly">molecularly这个术语发挥作用的地方。它指的是定义物质特征的分子之间的相互作用、结构和行为。在molecularly">molecularly层面上，物质由以各种排列结合在一起的原子组成。这些排列可以导致截然不同的特性。例如，钻石和石墨完全由碳原子组成，但由于它们在molecularly">molecularly上的不同结构，它们表现出截然不同的物理特性。钻石形成了一个刚性的三维晶格，使其非常坚硬，而石墨则具有可以相互滑动的碳原子层，给人一种光滑的感觉。此外，理解molecularly">molecularly层面上的相互作用使科学家能够操纵材料以实现特定目的。在医学中，例如，药物设计极大地依赖于对分子如何与生物系统相互作用的知识。一种药物的有效性往往取决于其与体内特定靶点结合的能力，这由其molecularly">molecularly定义的结构决定。这种精确的相互作用可以导致所需的治疗效果，说明了在医疗保健中分子理解的重要性。除了医学，技术的进步也受益于molecularly">molecularly知情的视角。纳米技术例如，涉及在原子或molecularly">molecularly小的尺度上操纵物质，以创造具有独特属性的新材料。这些创新可以导致更强、更轻的材料或更高效的能源来源，展示了基于molecularly">molecularly研究的深远影响。此外，环境科学越来越依赖于molecularly">molecularly集中的研究来解决污染和气候变化等问题。理解温室气体排放或污染物降解背后的molecularly">molecularly驱动机制可以导致更有效的减缓和修复策略。通过针对特定分子，研究人员可以开发既高效又可持续的解决方案。总之，molecularly">molecularly意识的概念在各个研究领域都是必不可少的。从理解材料的基本特性到开发先进技术以及应对全球挑战，基于molecularly">molecularly的研究的影响是巨大的。随着我们继续探索分子世界的复杂性，我们为创新和改善日常生活开辟了新的可能性。因此，促进对molecularly">molecularly驱动过程的更深入理解无疑将为未来的发现和进步铺平道路。