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相关概念视频

Entropy02:39

Entropy

36.2K
Salt particles that have dissolved in water never spontaneously come back together in solution to reform solid particles. Moreover, a gas that has expanded in a vacuum remains dispersed and never spontaneously reassembles. The unidirectional nature of these phenomena is the result of a thermodynamic state function called entropy (S). Entropy is the measure of the extent to which the energy is dispersed throughout a system, or in other words, it is proportional to the degree of disorder of a...
36.2K
Entropy01:18

Entropy

3.6K
The first law of thermodynamics is quantitatively formulated via an equation relating the internal energy of a system, the heat exchanged by it, and the work done on it. A quantitative formulation of the second law of thermodynamics leads to defining a state function, the entropy.
When an ideal gas expands isothermally, the disorder in the gas increases. From the molecular perspective, the gas molecules have more volume to move around in.
Consider an infinitesimal step in the expansion, which...
3.6K
Standard Entropy Change for a Reaction03:00

Standard Entropy Change for a Reaction

24.9K
Entropy is a state function, so the standard entropy change for a chemical reaction (ΔS°rxn) can be calculated from the difference in standard entropy between the products and the reactants.
24.9K
Entropy and Solvation02:05

Entropy and Solvation

8.4K
The process of surrounding a solute with solvent is called solvation. It involves evenly distributing the solute within the solvent. The rule of thumb for determining a solvent for a given compound is that like dissolves like. A good solvent has molecular characteristics similar to those of the compound to be dissolved. For example, polar solutions dissolve polar solutes, and apolar solvents dissolve apolar solutes. A polar solvent is a solvent that has a high dielectric constant (ϵ...
8.4K
Entropy within the Cell01:22

Entropy within the Cell

12.9K
A living cell's primary tasks of obtaining, transforming, and using energy to do work may seem simple. However, the second law of thermodynamics explains why these tasks are harder than they appear. None of the energy transfers in the universe are completely efficient. In every energy transfer, some amount of energy is lost in a form that is unusable. In most cases, this form is heat energy. Thermodynamically, heat energy is defined as the energy transferred from one system to another that...
12.9K
Range00:59

Range

14.3K
The range is one of the measures of variation. It can be defined as the difference between a dataset's highest and lowest values. For example, in the study of seven 16-ounce soda cans, the filled volume of soda was measured, thus producing the following amount (in ounces) of soda:
15.9; 16.1; 15.2; 14.8; 15.8; 15.9; 16.0; 15.5
Measurements of the amount of soda in a 16-ounce can vary since different subjects record these measurements or since the exact amount - 16 ounces of liquid, was not...
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相关实验视频

Updated: Feb 6, 2026

Bulk and Thin Film Synthesis of Compositionally Variant Entropy-stabilized Oxides
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Bulk and Thin Film Synthesis of Compositionally Variant Entropy-stabilized Oxides

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在高碳化物中的短距离顺序.

Shuguang Wei1, Muhammad Waqas Qureshi1, Jingrui Wei1

  • 1Department of Materials Science and Engineering, University of Wisconsin-Madison, Madison, WI, USA.

Nature communications
|February 4, 2026
PubMed
概括
此摘要是机器生成的。

高碳化物 (HECs) 呈现化学短程秩序 (CSRO),这是这些材料中以前没有观察到的现象. 这一发现增强了抗辐射能力,并为设计适用于极端环境的先进材料提供了新的途径.

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相关实验视频

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科学领域:

  • 材料科学 材料科学 材料科学
  • 固态化学 固态化学
  • 纳米技术纳米技术

背景情况:

  • 高碳化物 (HEC) 是一种先进的材料,由于其独特的特性,具有极端环境的潜力.
  • 众所周知,化学短程顺序 (CSRO) 对其他材料类的性能产生影响,但其在HEC中的存在和作用以前没有被研究过.

研究的目的:

  • 调查高碳化物 (HEC) 中化学短程秩序 (CSRO) 的存在和影响.
  • 确定CSRO是否可以控制,以及它如何影响材料特性,特别是耐辐射性.

主要方法:

  • 原子模拟被用来模拟HEC中原子的行为.
  • 扫描传输电子显微镜 (STEM) 用于实验性观察和验证原子结构.

主要成果:

  • 该研究成功地在多个HEC中观察了CSRO,证实了其在这个材料类中的存在.
  • 发现HEC中的CSRO可以通过元素选择和热处理来控制.
  • 辐射抵抗的显著改善与CSRO的存在有关,尽管其他因素也起到作用.

结论:

  • 这项研究将CSRO的理解扩展到高碳化物,这是一个新的发现.
  • 控制CSRO的能力为设计HEC提供了一种新的策略,为苛刻的应用提供了增强性能的HEC.
  • 这些发现为开发适应极端条件的下一代材料铺平了道路.