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Power01:08

Power

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The concept of work involves force and displacement; meanwhile, the work-energy theorem relates the net work done on a body to the difference in its kinetic energy, calculated between two points on its trajectory. While none of these quantities or relations involves time explicitly, we know that the time available to accomplish work is often just as important as the amount of work itself. For example, sprinters in a race may have achieved the same velocity at the finish, therefore,...
12.9K
What is Genetic Engineering?00:49

What is Genetic Engineering?

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Overview
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Sums of Power01:22

Sums of Power

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In definite integration, Riemann sums approximate the area under a curve by dividing it into subintervals and summing the areas of rectangles. When these approximations follow predictable numerical patterns, such as arithmetic or polynomial sequences, sum formulas offer a more efficient and accurate way to compute the result. In particular, the sum of consecutive integers, squares, and cubes plays an essential role in simplifying these calculations, especially when dealing with uniform...
58
Instantaneous Power01:22

Instantaneous Power

885
Instantaneous power is important in electrical circuits, mainly when dealing with sinusoidal input. Instantaneous power, denoted as p(t), results from the multiplication of the instantaneous voltage (v(t)) across an element and the instantaneous current (i(t)) flowing through it. This relationship adheres to the passive sign convention and represents a fundamental principle in electrical engineering.
885
Complex Power01:14

Complex Power

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Power engineers have introduced the concept of complex power to determine the cumulative effect of parallel loads. This idea plays a crucial role in power analysis because it encompasses all the details related to the power consumed by a specific load.
Complex power is defined as the multiplication of the voltage and the complex conjugate of the current. The magnitude of this power, known as apparent power, is measured in volt-amperes (VA). Notably, the angle of the complex power equates to the...
878
Electrical Power01:07

Electrical Power

3.7K
Electric power is the product of current and voltage, represented in units of joules per second, or watts. For example, cars often have one or more auxiliary power outlets with which you can charge a cell phone or other electronic devices. These outlets may be rated at 20 amps and 12 volts, so that the circuit can deliver a maximum power of 240 watts. Consider a 25 Watt bulb and a 60 Watt bulb. The conversion of electrical energy produces heat and light, while the kinetic energy lost by the...
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相关实验视频

Updated: Jan 22, 2026

An Integrated System to Remotely Trigger Intracellular Signal Transduction by Upconversion Nanoparticle-mediated Kinase Photoactivation
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压力工程升级转换纳米粒子用于可调节功率的动态信息加密.

Changwen Li1, Yuqi Yang2, Jiaxiang Xiao1

  • 1Molecular Science and Biomedicine Laboratory (MBL), State Key Laboratory of Chemo and Biosensing, College of Chemistry and Chemical Engineering, Hunan University, Changsha, 410082, People's Republic of China. dqian@hnu.edu.cn.

Chemical communications (Cambridge, England)
|January 21, 2026
PubMed
概括
此摘要是机器生成的。

压力工程上转化纳米粒子显示可调节的发光,使得循序渐进的排放激活,以连续显示信息. 这种电源门式方法为动态和安全的光学加密提供了一个强大的平台.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 纳米技术纳米技术
  • 光学是什么?光学是什么?光学是什么?

背景情况:

  • 向上转换纳米粒子 (UCNPs) 对于将低能光转换为高能辐射至关重要.
  • 控制UCNP发光特性对于先进的光学应用是必不可少的.

研究的目的:

  • 为了展示压力工程UCNPs与功率调节的发光.
  • 为了实现使用可控发光激活的顺序信息显示.
  • 为安全的光学加密开发一个强大的平台.

主要方法:

  • 合成压力工程UCNP与受控的Ytterbium (Yb3+) 兴奋剂.
  • 在不同激发功率下研究发光特性.
  • 利用网格-应变诱导的相位过渡来控制排放.

主要成果:

  • 通过应变调节,在UCNP中实现了功率调节的发光.
  • 通过变化的激发功率来证明逐步的排放激活.
  • 通过可控发光成功实现了顺序信息显示.

结论:

  • 应变工程提供了对UCNP发光的精确控制.
  • 具有功率门的单波长激发使动态光学加密成为可能.
  • 这种方法为光学数据安全提供了一种简单,强大和安全的方法.