化学与化工类专业词汇与句子
常用句型
1. The …has played a prominent role in the development of …
…在…发展过程中扮演着重要的角色。
2. Research on well-defined … is increasingly attracting attention as … play key roles in many important technologies and processes including …, …, … and ….
…在…、…、…和…等许多重要技术和过程中发挥着关键作用,因此,…的研究越来越受到人们的关注。
3. This synthetic strategy has yielded already a plethora of …, with enormous potential for new composites and their applications.
这种合成策略已经产生了大量的……,对于新的复合材料及其应用具有巨大的潜力。
4. A different synthetic approach, the … allowed control not only of the size, shape and composition, but also of the location of the guest within the crystalline host particle.
一种不同的合成方法,…不仅可以控制粒径、形状和组成,还可以控制客体在晶体主体颗粒中的位置。
5. The deeper exploration of a wealth of … systems in recent years has shown the great potential of the approach, but also has revealed advanced challenges related to the atom-precise incorporation of … into …
近年来对大量…系统的深入探索显示了该方法的巨大潜力,但也揭示了与原子精确地将…纳入…有关的高级挑战。
6. This review article focusses on the beauty and potential of highly defined … systems and their synthetic accessibility.
这篇综述文章集中于高度定义的…系统的完美和潜力及其综合可及性。
7. Furthermore, the synthetic modularity of …, which enable add-on functionalities such as … and …, is addressed in form of hierarchical systems.
此外,本文还讨论了…材料的合成模块化,并以层次系统的形式讨论了它的附加功能,如…和…。
8. Innovative analytical approaches enable the precise determination of the …, leading to a deeper material understanding.
创新的分析方法能够精确确定…,从而对材料有更深入的了解。
9. In this review, we evaluate the current state-of-the-art of the …
本文综述了…的研究进展。
10. Recent attention has been paid to the potential applications of … in the domain of energy in view of achieving the decarbonization of energy production as eagerly request by our society.
为了实现社会对能源生产脱碳的迫切要求,近年来…在能源领域的潜在应用受到了广泛关注。
11. Whatever, the aforementioned examples demonstrate that the contribution of … in electrode materials, both to design new phases or as modifying agent of surface could lead to real technological advances in the field of electrochemical energy storage.
无论如何,上述实例表明,…在电极材料中的贡献,无论是设计新相还是作为表面改性剂,都可能导致电化学储能领域的真正技术进步。