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相关概念视频

Acid Halides to Amides: Aminolysis01:07

Acid Halides to Amides: Aminolysis

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Aminolysis is a nucleophilic acyl substitution reaction, where ammonia or amines act as nucleophiles to give the substitution product. Acid halides react with ammonia, primary amines, and secondary amines to yield primary, secondary, and tertiary amides, respectively.
In the first step of the aminolysis mechanism, the amine attacks the carbonyl carbon of the acyl chloride to form a tetrahedral intermediate. In the second step, the carbonyl group is re-formed with the elimination of a chloride...
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Acid Halides to Alcohols: LiAlH4 Reduction01:19

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Acid halides are reduced to alcohols in the presence of a strong reducing agent like lithium aluminum hydride.
The mechanism proceeds in three steps. First, the nucleophilic hydride ion attacks the carbonyl carbon of the acid halide to form a tetrahedral intermediate. Next, the carbonyl group is re-formed, and the halide ion departs as a leaving group, generating an aldehyde. A second nucleophilic attack by the hydride yields an alkoxide ion, which, upon protonation, gives a primary alcohol as...
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Acid Halides to Ketones: Gilman Reagent01:14

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Lithium dialkyl cuprate, also known as Gilman reagents, selectively reduces acid halides to ketones. The acid chloride is treated with Gilman reagent at −78 °C in the presence of ether solution to produce a ketone in good yield.
As shown below, the mechanism proceeds in two steps. First, one of the alkyl groups of the reagent acts as a nucleophile and attacks the acyl carbon of the acid chloride to form a tetrahedral intermediate. This is followed by the reformation of the...
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Amides to Amines: LiAlH4 Reduction01:20

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Amide reduction with strong reducing agents like lithium aluminum hydride proceeds through a nucleophilic acyl substitution to form amines. Primary, secondary, and tertiary amides yield primary, secondary, and tertiary amines, respectively.
Amide reduction requires two equivalents of the reducing agent, acting as a source of hydride ions. As shown in the figure, the reaction is initiated with a nucleophilic attack by the hydride ion at the carbonyl carbon to form a tetrahedral intermediate.
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The cultivation of environmental microorganisms has long been hindered by the inability to replicate complex native conditions in vitro. The isolation chip (iChip) addresses this limitation by facilitating the growth of previously uncultivable microorganisms through in situ incubation. Designed for high-throughput microbial cultivation, the iChip comprises hundreds of microchambers, each capable of housing a single microbial cell. These microchambers are loaded with a mixture of molten agar and...
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石墨烯基里加米

Melina K Blees1, Arthur W Barnard2, Peter A Rose1

  • 1Laboratory of Atomic and Solid State Physics, Cornell University, Ithaca, New York 14853, USA.

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|July 30, 2015
PubMed
概括
此摘要是机器生成的。

石墨烯可以被切割和折叠 (kirigami) 成微尺度结构,具有可调的机械特性. 石墨烯板中的波纹显著增加了刚性,使其在微机械设备中应用.

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科学领域:

  • 材料科学
  • 机械工程
  • 纳米技术

背景情况:

  • 折纸和折纸是传统的折纸和剪纸艺术,适用于创建3D结构.
  • 这些技术正在探索从先进的二维材料制造微型结构.

研究的目的:

  • 在微观尺度上研究石墨烯的适用性.
  • 了解图形结构的机械性质.

主要方法:

  • 在单层石墨烯板 (10-100微米) 上进行石墨烯石墨烯.
  • 通过测量曲刚度来确定Föppl-von Kármán数 (γ).
  • 使用干扰成像来分析膜结构并识别波纹.

主要成果:

  • 石墨烯非常适合在基里加米中使用,
  • 由于波纹, 石墨烯的曲刚度是预测的数千倍.
  • 波纹石墨烯的Föppl-von Kármán数 (γ) 相当于纸张,表示易于曲.
  • 有基里加米图案的石墨烯具有可调节的机械性能.

结论:

  • 石墨烯基里加米是一种可行的制造微尺度机械元材料的方法.
  • 石墨烯的波纹显著增强了它的曲刚性, 使它适合于kirigami.
  • 这种方法可以创建弹性,可移动的微尺度组件,如弹和链.