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相关概念视频

Properties of Transition Metals02:58

Properties of Transition Metals

25.2K
Transition metals are defined as those elements that have partially filled d orbitals. As shown in Figure 1, the d-block elements in groups 3–12 are transition elements. The f-block elements, also called inner transition metals (the lanthanides and actinides), also meet this criterion because the d orbital is partially occupied before the f orbitals.
25.2K
Oxidation of Alkenes: Syn Dihydroxylation with Osmium Tetraoxide02:44

Oxidation of Alkenes: Syn Dihydroxylation with Osmium Tetraoxide

10.0K
Alkenes are converted to 1,2-diols or glycols through a process called dihydroxylation. It involves the addition of two hydroxyl groups across the double bond with two different stereochemical approaches, namely anti and syn. Dihydroxylation using osmium tetroxide progresses with syn stereochemistry.
10.0K
Oxidation of Alkenes: Anti Dihydroxylation with Peroxy Acids02:04

Oxidation of Alkenes: Anti Dihydroxylation with Peroxy Acids

5.7K
Diols are compounds with two hydroxyl groups. In addition to syn dihydroxylation, diols can also be synthesized through the process of anti dihydroxylation. The process involves treating an alkene with a peroxycarboxylic acid to form an epoxide. Epoxides are highly strained three-membered rings with oxygen and two carbons occupying the corners of an equilateral triangle. This step is followed by ring-opening of the epoxide in the presence of an aqueous acid to give a trans diol.
5.7K
Oxidation of Alkenes: Syn Dihydroxylation with Potassium Permanganate02:21

Oxidation of Alkenes: Syn Dihydroxylation with Potassium Permanganate

11.1K
Alkenes can be dihydroxylated using potassium permanganate.  The method encompasses the reaction of an alkene with a cold, dilute solution of potassium permanganate under basic conditions to form a cis-diol along with a brown precipitate of manganese dioxide.
11.1K
Coordination Number and Geometry02:57

Coordination Number and Geometry

15.6K
For transition metal complexes, the coordination number determines the geometry around the central metal ion. Table 1 compares coordination numbers to molecular geometry. The most common structures of the complexes in coordination compounds are octahedral, tetrahedral, and square planar.
15.6K
Oxidations of Aldehydes and Ketones to Carboxylic Acids01:15

Oxidations of Aldehydes and Ketones to Carboxylic Acids

3.8K
Oxidation of aldehydes and ketones results in the formation of carboxylic acids. Aldehydes, bearing hydrogen next to the carbonyl group, are easily oxidized compared to ketones. This is because an aldehydic proton can easily be abstracted during oxidation.
Aldehydes readily undergo oxidation in strong oxidizing agents such as potassium permanganate and chromic acid. The oxidation can also be carried out using mild oxidizing agents such as silver oxide. In fact, aldehydes can be easily oxidized...
3.8K

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相关实验视频

Updated: Jun 13, 2025

Synthesis of Platinum-nickel Nanowires and Optimization for Oxygen Reduction Performance
09:02

Synthesis of Platinum-nickel Nanowires and Optimization for Oxygen Reduction Performance

Published on: April 27, 2018

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为什么与贵金属合金并不能降低的氧化:基于DFT的热力学研究.

Alexander Kafka1, Franziska Hess1

  • 1Technische Universität Berlin, Straße des 17. Juni 124, 10623 Berlin, Germany. f.hess@tu-berlin.de.

Physical chemistry chemical physics : PCCP
|September 16, 2024
PubMed
概括

与其他金属合金金可以减少技术应用中的腐蚀. 铜在稳定催化剂方面表现有前途,尽管氧化阻力和合金高贵性之间存在普遍的权衡.

科学领域:

  • 材料科学 材料科学 材料科学
  • 物理化学 物理化学
  • 计算材料科学科学 计算材料科学

背景情况:

  • 在苛刻的技术应用中,的高贵性受到腐蚀的影响.
  • 的损失通常归因于挥发性二氧化 (PtO2) 的形成.
  • 合金是一种潜在的策略,可以提高白金的稳定性并减少腐蚀.

研究的目的:

  • 为了研究各种合金及其氧化物的大体稳定性.
  • 为了评估合金在减少白金腐蚀方面的有效性.
  • 确定用于稳定催化剂的有前途的合金元素.

主要方法:

  • 使用密度函数理论 (DFT) 的计算.
  • 从事ab initio和文献热力学数据.
  • 开发了一种合金模型,将特殊的近随机结构 (SQS) 与插入的热力学特性和配置相结合.

主要成果:

  • 合金一般会减少的氧化,但也会降低整体合金的高贵性.
  • 合金金属对和氧的亲和力之间存在直接关系.
  • 铜 (Cu) 被确定为白金稳定的一个有前途的合金元素.

更多相关视频

Metal-silicate Partitioning at High Pressure and Temperature: Experimental Methods and a Protocol to Suppress Highly Siderophile Element Inclusions
11:50

Metal-silicate Partitioning at High Pressure and Temperature: Experimental Methods and a Protocol to Suppress Highly Siderophile Element Inclusions

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Catalytic Reactions at Amine-Stabilized and Ligand-Free Platinum Nanoparticles Supported on Titania During Hydrogenation of Alkenes and Aldehydes
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Catalytic Reactions at Amine-Stabilized and Ligand-Free Platinum Nanoparticles Supported on Titania During Hydrogenation of Alkenes and Aldehydes

Published on: June 24, 2022

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相关实验视频

Last Updated: Jun 13, 2025

Synthesis of Platinum-nickel Nanowires and Optimization for Oxygen Reduction Performance
09:02

Synthesis of Platinum-nickel Nanowires and Optimization for Oxygen Reduction Performance

Published on: April 27, 2018

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Metal-silicate Partitioning at High Pressure and Temperature: Experimental Methods and a Protocol to Suppress Highly Siderophile Element Inclusions
11:50

Metal-silicate Partitioning at High Pressure and Temperature: Experimental Methods and a Protocol to Suppress Highly Siderophile Element Inclusions

Published on: June 13, 2015

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Catalytic Reactions at Amine-Stabilized and Ligand-Free Platinum Nanoparticles Supported on Titania During Hydrogenation of Alkenes and Aldehydes
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Catalytic Reactions at Amine-Stabilized and Ligand-Free Platinum Nanoparticles Supported on Titania During Hydrogenation of Alkenes and Aldehydes

Published on: June 24, 2022

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结论:

  • 合金化提供了一种可行的途径,以减轻技术应用中的腐蚀.
  • 铜合金具有提高催化剂稳定性的潜力,特别是在奥斯瓦尔德工艺中.
  • 需要进一步研究耐腐蚀性和合金性能之间的权衡.