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| LABORATORY SAFETY
Check-In Glassware and Apparatus ¥°
Check-In Glassware and Apparatus ¥±
Assent for Safety in the Laboratory
Chapter 01 The relationship between the physical property and the structure of organic compounds
1.1 Dissolution and Polarity
1.2 Thin Layer Chromatography and Isomers
1.3 Distillation and Polarizability
1.4 Extraction and Acid Dissociation Constant(pKa)
1.5 Recystallization and Melting point
Chapter 02 Basic Organic Reactions
2.1 Esterification
2.2 Saponification
2.3 Synthesis of Acetanilide
2.4 Oxidation
a. Synthesis of Cyclohexanone
b. Synthesis of Benzaldehyde
2.5 Reduction
a. Synthesis of Benzyl Alcohol
b. Synthesis of Aniline
2.6 Nitration
2.7 Cannizzaro Reaction
2.8 Aldol Condensation
Chapter 03 Intermediate Organic Reactions
3.1 Synthesis of Azo Dye
a. Synthesis of Methyl Orange
b. Synthesis of Orange ¥±
3.2 Synthesis of Lactam using Bechmann Rearrangement
3.3 Nazarov Reaction
3.4 Diels-Alder Reaction
Chapter 04 Appendix
4.1 Table of Isomers
4.2 Glassware and Apparatus
4.3 Reagent
4.4 Solvent
4.5 pKa
4.6 Calculation of Concentration in Solution
4.7 Dyeing Reagent for Thin Layer Chromatography
4.8 A Simple Calculation of H NMR Shifts
Index LABORATORY SAFETY
Check-In Glassware and Apparatus ¥°
Check-In Glassware and Apparatus ¥±
Assent for Safety in the Laboratory
Chapter 01 The relationship between the physical property and the structure of organic compounds
1.1 Dissolution and Polarity
1.2 Thin Layer Chromatography and Isomers
1.3 Distillation and Polarizability
1.4 Extraction and Acid Dissociation Constant(pKa)
1.5 Recystallization and Melting point
Chapter 02 Basic Organic Reactions
2.1 Esterification
2.2 Saponification
2.3 Synthesis of Acetanilide
2.4 Oxidation
a. Synthesis of Cyclohexanone
b. Synthesis of Benzaldehyde
2.5 Reduction
a. Synthesis of Benzyl Alcohol
b. Synthesis of Aniline
2.6 Nitration
2.7 Cannizzaro Reaction
2.8 Aldol Condensation
Chapter 03 Intermediate Organic Reactions
3.1 Synthesis of Azo Dye
a. Synthesis of Methyl Orange
b. Synthesis of Orange ¥±
3.2 Synthesis of Lactam using Bechmann Rearrangement
3.3 Nazarov Reaction
3.4 Diels-Alder Reaction
Chapter 04 Appendix
4.1 Table of Isomers
4.2 Glassware and Apparatus
4.3 Reagent
4.4 Solvent
4.5 pKa
4.6 Calculation of Concentration in Solution
4.7 Dyeing Reagent for Thin Layer Chromatography
4.8 A Simple Calculation of H NMR Shifts
Index |
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