当前课程知识点:Analytical Chemistry for Engineering > Section 4 — Spectroscopy Analysis > 4.3 Emission Spectroscopy > 4.3-1. Emission spectroscopy—Molecular fluorescence and atomic emission
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There are two lectures about emission spectrographic analysis, and this is the first: Introdyction of molecular fluorescence and atomic emission. The contents of this lecture include:
Molecular fluorescence spectrometry
(1) The spin multiplicity of electrons in the molecule
(2) The generation process of molecular fluorescence
(3) The relationship of excitation spectrum and fluorescence (emission) spectrum
(4) Fluorescence quantum yield
(5) The relationship between the compound structure and its fluorescence—organic compounds
Atomic emission spectroscopy-Generation and analysis process
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-1.1 Error Analysis
--1.1-1 Generation and reduction of errors
--1.1-2 Characterizing experimental errors
--Exercises for 1.1
-1.2 Statistical Processing of Data
--1.2-1 Identify random error and gross error
--1.2-2 Identification of systematic errors
--Exercises for 1.2
-1.3 Significant Figures and Measurement Error
--1.3 Significant figures and measurement error
--Exercises for 1.3
-Quiz for Section 1
-The discussion topic for Section 1
-2.1 Overview of Titration Analysis
--2.1-1 Overview of titration analysis
--Exercises for 2.1
-2.2 Chemical Equilibrium
--2.2-1 Acid-base equilibrium——1 Distribution fractions for weak acid/base
--2.2-1 Acid-base equilibrium——2 pH calculations of aqueous solutions
--2.2-2 Complexation equilibrium
--2.2-3 Oxidation-reduction equilibrium
--2.2-4 Precipitation-dissolution equilibrium
--Exercises for 2.2
-2.3 Titration Curve
--2.3-1 Acid-base titration curve
--2.3-2 Complexation titration curve
--2.3-3 Redox and precipitation titration curve
--Exercises for 2.3
-2.4 Indicators for Titration Analysis
--2.4-2 Metallochromic indicator
--2.4-3 Indicators for redox and precipitation titration
--Exercises for 2.4
-2.5 Application of Titration Analysis
--2.5-1 Application of acid-base titration
--2.5-2 Application of complexation titration
--2.5-3 Application of redox titration
--Exercises for 2.5
-Quiz for Section 2
-The discussion topic for Section 2
-3.1 Potentiometric Analysis
--3.1-1 Potentiometric Analysis—Direct potentiometry
--3.1-2 Potentiometric Analysis—Potentiometric titration
--Exercises for 3.1
-3.2 Voltammetry
--3.2-1 Voltammetry—Classical Polarography
--3.2-2 Voltammetry—Single sweep polarography and cyclic voltammetry
--Exercises for 3.2
-Quiz for Section 3
-The discussion topic for Section 3
-4.1 Overview of Spectroscopic Methods
--4.1. Overview of Spectroscopic Methods
--Exercises for 4.1
-4.2 Absorption Spectroscopy
--4.2-1. Absorption spectroscopy—Quantitative analysis—1. Lambert-Beer's law
--4.2-2. Absorption spectroscopy—Methods—1. UV-Vis spectrophotometry
--4.2-2. Absorption spectroscopy—Methods—2. IR spectroscopy
--4.2-2. Absorption spectroscopy—Methods—3. Atomic absorption spectroscopy
--4.2-3. Absorption spectroscopy—Instruments
--Exercises for 4.2
-4.3 Emission Spectroscopy
--4.3-1. Emission spectroscopy—Molecular fluorescence and atomic emission
--4.3-2. Emission spectroscopy—Emission spectroscopy instruments and quantitative analysis
--Exercises for 4.3
-Quiz for Section 4
-The discussion topic for Section 4
-A published paper that used many spectroscopy methods
-5.1 Process of Chromatographic Analysis
--5.1 Process of Chromatographic Analysis
--Exercises for 5.1
-5.2 Qualitative and Quantitative Analysis of Chromatography
--5.2 Qualitative and Quantitative Analysis of Chromatography
--Exercises for 5.2
-5.3 Gas Chromatography
--Exercises for 5.3
-5.4 Liquid Chromatography Analysis
--5.4 Liquid chromatography analysis
--Exercises for 5.4
-Quiz for Section 5
-The discussion topic for Section 5
-Final exam