The article contains sections titled: 1. Introduction 2. General Chemical Properties 2.1. Salt Formation 2.2. Conversion to Carboxamides 2.3. Conversion to Sulfonamides 2.4. Reaction with Carbonyl Compounds 2.5. Reaction with Carbon Dioxide and Carbon Disulfide 2.6. Reaction with Epoxides 2.7. Alkylation 2.8. Formation of Isocyanates and Ureas 2.9. Reaction with Acrylonitrile 2.10. Formation of Isonitriles 2.11. Oxidation 2.12. Dealkylation 3. General Production Methods 3.1. Production from Alcohols 3.2. Production from Carbonyl Compounds 3.3. Production from Nitriles 3.4. Production from Alkyl Halides 3.5. Production from Nitro Compounds 3.6. Production from Olefins 3.7. Other Processes 4. Lower Alkylamines 4.1. Physical Properties 4.2. Storage and Transportation 4.3. Quality Specifications and Analysis 4.4. Production 4.5. Uses 4.6. Economic Aspects 5. Cycloalkylamines 6. Cyclic Amines 7. Fatty Amines 7.1. Properties 7.2. Production 7.3. Analysis and Quality Control 7.4. Uses 7.5. Economic Aspects 8. Diamines and Polyamines 8.1. Diamines Diaminoethane 8.1.1. Diaminopropanes 8.1.2. Higher Diamines 8.2. Oligoamines and Polyamines 8.2.1. Physical Properties 8.2.2. Chemical Properties 8.2.3. Production, Analysis, and Uses 9. Chiral Amines 10. Toxicology and Occupational Health 10.1. General Aspects 10.2. Toxicology of Specific Amines 10.2.1. Alkylamines, Cyclic Amines, and Polyamines 10.2.2. Fatty Amines
The article contains sections titled: 1. Introduction 2. General Chemical Properties 2.1. Salt Formation 2.2. Conversion to Carboxamides 2.3. Conversion to Sulfonamides 2.4. Reaction with Carbonyl Compounds 2.5. Reaction with Carbon Dioxide and Carbon Disulfide 2.6. Reaction with Epoxides 2.7. Alkylation 2.8. Formation of Isocyanates and Ureas 2.9. Reaction with Acrylonitrile 2.10. Formation of Isonitriles 2.11. Oxidation 2.12. Dealkylation 3. General Production Methods 3.1. Production from Alcohols 3.2. Production from Carbonyl Compounds 3.3. Production from Nitriles 3.4. Production from Alkyl Halides 3.5. Production from Nitro Compounds 3.6. Production from Olefins 3.7. Other Processes 4. Lower Alkylamines 4.1. Physical Properties 4.2. Storage and Transportation 4.3. Quality Specifications and Analysis 4.4. Production 4.5. Uses 4.6. Economic Aspects 5. Cycloalkylamines 6. Cyclic Amines 7. Fatty Amines 7.1. Properties 7.2. Production 7.3. Analysis and Quality Control 7.4. Uses 7.5. Economic Aspects 8. Diamines and Polyamines 8.1. Diamines 8.1.1. 1,2‐Diaminoethane (Ethylenediamine) 8.1.2. Diaminopropanes 8.1.3. Higher Diamines 8.2. Oligoamines and Polyamines 8.2.1. Physical Properties 8.2.2. Chemical Properties 8.2.3. Production, Analysis, and Uses 9. Chiral Amines 10. Toxicology and Occupational Health 10.1. General Aspects 10.2. Toxicology of Specific Amines 10.2.1. Alkylamines, Cyclic Amines, and Polyamines 10.2.2. Fatty Amines 11. Acknowledgment
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2025 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
