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相关概念视频

UV–Vis Spectroscopy: Molecular Electronic Transitions01:16

UV–Vis Spectroscopy: Molecular Electronic Transitions

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In Ultraviolet–Visible (UV–Vis) spectroscopy, the absorption of electromagnetic radiation is used to probe the electronic structure of molecules. This technique provides insights into molecular electronic transitions, particularly the movement of electrons between different molecular orbitals. Radiation is absorbed if the energy of the electromagnetic radiation passing through the molecule is precisely equal to the energy difference between the excited and ground states. During this...
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Molecular Spectroscopy: Absorption and Emission01:14

Molecular Spectroscopy: Absorption and Emission

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Molecules possess discrete energy levels called quantum states. Unlike atoms, which have simpler energy levels, molecules possess additional rotational and vibrational energy levels.  Each energy level is separated by an energy gap, with the gaps between adjacent electronic, vibrational, and rotational levels varying significantly. The three types of energy levels in a diatomic molecule are shown in Figure 1.
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UV–Vis Spectroscopy: Woodward–Fieser Rules01:29

UV–Vis Spectroscopy: Woodward–Fieser Rules

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UV–Visible absorption spectra of conjugated dienes arise from the lowest energy π → π* transitions. The light-absorbing part of the molecule is called the chromophore, and the substituents directly attached to the chromophore are called auxochromes. A strong correlation exists between the absorption maxima, λmax, and the structure of a conjugated π system. The Woodward–Fieser rules predict the value of λmax for a given...
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UV–Vis Spectroscopy of Conjugated Systems01:32

UV–Vis Spectroscopy of Conjugated Systems

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Organic compounds with conjugated double bonds show strong absorption features in the UV–visible region of the electromagnetic spectrum attributed to π → π* electronic excitations. Generally, a UV–vis absorption spectrum is recorded as a plot of absorbance vs wavelength. The wavelength of maximum absorbance, which manifests as a peak in the absorption spectrum, is denoted as λmax.
One of the factors influencing λmax is the extent...
7.1K
Ultraviolet and Visible (UV–Vis) Spectroscopy: Overview01:02

Ultraviolet and Visible (UV–Vis) Spectroscopy: Overview

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Ultraviolet–visible (UV–visible or UV–Vis) spectroscopy is an analytical technique that investigates the interaction between matter and UV–Vis light within the electromagnetic spectrum. This method is widely used for its versatility, simplicity, and relatively quick data acquisition, making it valuable for both qualitative and quantitative analysis. When UV–Vis radiation passes through a material,  molecules absorb light depending on the energy required for...
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Atomic Emission Spectroscopy: Instrumentation01:22

Atomic Emission Spectroscopy: Instrumentation

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The instrumentation of atomic emission spectrometry (AES) involves various components, including atomization devices that convert samples into gas-phase atoms and ions. There are two main types of atomization devices: continuous and discrete atomizers.  Continuous atomizers, like plasmas and flames, introduce samples in a constant stream, while discrete atomizers inject individual samples using syringes or autosamplers. The most common discrete atomizer is the electrothermal atomizer.
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Updated: Jul 18, 2025

Spectral and Angle-Resolved Magneto-Optical Characterization of Photonic Nanostructures
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双光学-机械光谱学双光学

Xinyi Ren1, Jin Pan1, Ming Yan2,3,4

  • 1State Key Laboratory of Precision Spectroscopy, East China Normal University, Shanghai, 200062, China.

Nature communications
|August 18, 2023
PubMed
概括
此摘要是机器生成的。

双光机谱学 (DCOS) 通过将双频与空腔光机学相结合,提供超敏感气体检测. 这种新的方法实现了对乙的高分辨率宽带光谱,使敏感的微量气体分析成为可能.

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科学领域:

  • 频谱学是一种光谱学.
  • 视觉机械学 视觉机械学
  • 气体传感器 气体传感器

背景情况:

  • 光学空洞增强了分子吸收光谱学对气体传感的灵敏度.
  • 高精度空洞限制波长范围,限制更广泛的应用.

研究的目的:

  • 通过整合双光谱学和腔内光学力学来开发一种新的超敏感分子光谱技术.
  • 在气体传感应用中克服传统光学空洞的局限性.

主要方法:

  • 开发了双光机谱学 (DCOS) 技术,通过光声学合双频与空腔合机械共振器.
  • 激发分子的光声学和感知振动诱导的超声波.
  • 测量了乙气的高分辨率宽带超声波谱.

主要成果:

  • 达到1.71 × 10−11 cm−1·W·Hz−1/2.2. 的正常化噪声等效吸收系数.
  • 获得了30 GHz同步光谱带宽,宽带激发>2 THz.
  • 证明了多种物种微量气体检测的能力.

结论:

  • DCOS为超敏感分子光谱学提供了一种新方法,扩大了腔内光学机械的应用.
  • 该技术可实现高分辨率,宽带气体传感,并有可能同时检测多个微量气体.