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Introduction to Spectrometry

Introduction to Spectrometry. 光谱分析导论 (P 201-203 ; 270-272 ).

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Introduction to Spectrometry

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  1. Introduction to Spectrometry 光谱分析导论 (P201-203;270-272)

  2. Spectroscopy is the use of the absorption, emission, or scattering of electromagnetic radiation by matter to qualitatively or quantitatively study the matter or to study physical processes. The matter can be atoms, molecules, atomic or molecular ions, or solids.

  3. 分子光谱 原子光谱 紫外可见法 原子吸收法 红外法 光谱分析法 核磁法 原子发射法 光谱分析方法的分类 荧光法

  4. 磁场 电场 传播方向 8.1 Electromagnetic Radiation(电磁辐射)and Electromagnetic Spectrum(波谱) 光是一种电磁辐射(电磁波、横波)

  5. 粒子性:光是由具有能量的光子组成,光子具有质量和动能,每个光子能量粒子性:光是由具有能量的光子组成,光子具有质量和动能,每个光子能量

  6. Sometimes it is convenient to label the radiation with the inverse(倒数)of the wavelength. The inverse of centimeters (cm-1) is called the wave number(波数), and the unit is used most often in infrared spectrometry. A measurement made in wave numbers is often denoted by . Then, the photon energy is the product of hc and the wave number. That is,

  7. 电磁波谱(electromagnetic spectrum)

  8. Example 8.1 • What is the energy per photon of the sodium D line ( 589nm )? • Solution • The energy per photon of the sodium D line is

  9. 8.2 Interaction of Electromagnetic Radiation with Matter • Rotational movement 旋转运动 • Vibrational movement 振动运动 • Electronic movement 电子运动 • Energy: discrete levels (quantization 量子化) When an atom, ion or molecule changes energy state, it absorbs or emits energy equal to the energy difference E = E1 - E0

  10. excited state 激发态(Ei) ground state 基态(E0) Absorption EM Transition 跃迁 The wavelength or frequency of radiation absorbed or emitted during a transition proportional to E Transition: EM:E=h equal to ΔE = E1- E0

  11. Rotational Transition 转动跃迁 (0.005~0.050eV)(100m~10cm; far-infrared; microwave; line spectrum) • Vibrational Transition 振动跃迁 (0.05~1eV) (2.5~15; 0.78~2.5m; mid-infrared; near-infrared) • Electronic Transition 电子跃迁 (1~20eV) (10~780nm; far-UV; near-UV; visible) With molecules, we not only have electronic but vibration and rotational sub-levels. Interactions with other molecules and a solvent will also have an effect. These result in “band” spectra. In atoms, there is a type of movement, i.e. electronic movement.

  12. 子 光 谱 分子光谱

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