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相关概念视频

Pumped Concrete01:13

Pumped Concrete

146
Concrete in large quantities can be pumped across long distances for placing in inaccessible sites. This system comprises a hopper that receives concrete from a mixer, a pump to propel the concrete, and pipelines that facilitate its delivery.
For direct-acting pumps, the concrete enters the pump via the inlet valve under the action of gravity and suction created by the movement of the piston. This concrete is then forced into the pipeline and out through the outlet valve by the forward movement...
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ATP Driven Pumps II: P-type Pumps01:34

ATP Driven Pumps II: P-type Pumps

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The P-type pumps are a large family of integral membrane transporter ATPases. They are divided into five major types based on substrate specificity, from I to V.
A typical P-type pump has three cytosolic domains: nucleotide-binding (N), phosphorylation (P), and activator (A) domains. These domains are connected to the membrane-spanning helices by short amino acid segments. ATP hydrolysis and covalent phosphoenzyme intermediate formation are crucial parts of the catalytic cycle. At the highly...
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ATP Driven Pumps III: V-type Pumps01:30

ATP Driven Pumps III: V-type Pumps

4.1K
V-type pumps are ATP-driven pumps found in the vacuolar membranes of plants, yeast, endosomal and lysosomal membranes of animal cells, plasma membranes of a few specialized eukaryotic cells, and some prokaryotes. They are also known as the V1Vo-ATPase, that couple ATP hydrolysis to transport protons against a concentration gradient.
The peripheral or cytosolic V1 domain with eight subunits is involved in ATP hydrolysis. The integral or transmembrane V0 domain containing at least five subunits...
4.1K
ATP Driven Pumps I: An Overview01:27

ATP Driven Pumps I: An Overview

9.0K
ATP-driven pumps, also known as transport ATPases, are integral membrane proteins. They have binding sites for ATP located on the membrane's cytosolic side and the ion-conducting domain in the transmembrane region. These pumps use the free energy released from ATP hydrolysis to move the solutes across cell membranes against an electrochemical gradient.
There are four main types of ATP-driven pumps - P-type, V-type, F-type, and ABC transporter. All these pumps are of varying complexities and...
9.0K

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通过带驱动的活性机械吸收

Liang Feng1, Yunyan Qiu1, Qing-Hui Guo2,3

  • 1Department of Chemistry, Northwestern University, Evanston, IL 60208, USA.

Science (New York, N.Y.)
|October 21, 2021
PubMed
概括
此摘要是机器生成的。

这项研究引入了机械吸附,一种使用分子来创建机械键的新吸附模式. 这种不平衡的过程将能量存储在超稳定状态中,从而改变表面化学控制.

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科学领域:

  • 表面科学
  • 材料化学
  • 物理化学

背景情况:

  • 传统上在平衡系统中研究吸附,重点是物理吸附 (范德瓦尔斯力) 和化学吸附 (电子相互作用).
  • 现有的方法缺乏对吸附过程和在接口上的能量存储的动态控制.

研究的目的:

  • 展示一种名为机械吸附的新型吸附机制.
  • 探索非平衡抽在吸附剂和吸附剂之间产生机械键的潜力.
  • 通过化学电容器研究超稳定状态的能量储存.

主要方法:

  • 使用分子移植的金属有机框架.
  • 实施非平衡抽以驱动吸附物运输.
  • 在隔间中创建潜在的梯度来储存能量.

主要成果:

  • 在功能化的金属有机框架表面上成功证明了机械吸收.
  • 从散装到接口实现吸附物的运输,形成机械键.
  • 已建立的化学电容器以超稳定状态存储能量.

结论:

  • 机械吸附从根本上扩大了吸附现象的范围.
  • 这种主动吸附模式为控制表面和接口化学提供了改造性的方法.
  • 机械吸收使分子层面的新能源储存机制成为可能.