Titre : | Green Organic Chemistry in Lecture and Laboratory (Sustainability: Contributions through Science and Technology) |
Auteurs : | Dicks Andrew P., Auteur |
Type de document : | Monographie imprimée |
Mention d'édition : | 1st edition |
Editeur : | CRC Press, 2016 |
ISBN/ISSN/EAN : | 978-1-138-19928-6 |
Format : | 1 vol. (298 p.) / ill., couv. ill. en coul / 23.5cm |
Langues: | Anglais |
Langues originales: | Anglais |
Mots-clés: | Green.Organic.Chemistry |
Résumé : |
The last decade has seen a huge interest in green organic chemistry, particularly as chemical educators look to "green" their undergraduate curricula. Detailing published laboratory experiments and proven case studies, this book discusses concrete examples of green organic chemistry teaching approaches from both lecture/seminar and practical perspectives. The experienced contributors address such topics as the elimination of solvents in the organic laboratory, organic reactions under aqueous conditions, organic reactions in non-aqueous media, greener organic reagents, waste management/recycling strategies, and microwave technology as a greener heating tool. This reference allows instructors to directly incorporate material presented in the text into their courses. Encouraging a stimulating organic chemistry experience, the text emphasizes the need for undergraduate education to: Focus on teaching sustainability principles throughout the curriculum Be flexible in the teaching of green chemistry, from modification of an existing laboratory experiment to development of a brand-new course Reflect modern green research areas such as microwave reactivity, alternative reaction solvents, solvent-free chemistry, environmentally friendly reagents, and waste disposal Train students in the "green chemistry decision-making" process Integrating recent research advances in green chemistry research and the Twelve Principles of Organic Chemistry into the lecture and laboratory environments, Green Organic Chemistry in Lecture and Laboratory highlights smaller, more cost-effective experiments with minimized waste disposal and reduced reaction times. This approach develops a fascinating and relevant undergraduate organic laboratory experience while focusing on real-world applications and problem-solving. |
Sommaire : |
Introduction to Teaching Green Organic Chemistry Introduction Early Developments in Green Chemistry The Twelve Principles of Green Chemistry The Twelve Principles in Teaching Green Organic Chemistry Green Organic Chemistry Teaching Resources Conclusion References Designing a Green Organic Chemistry Lecture Course Introduction Challenges in Launching and Teaching a Green Chemistry Course Course Description and Structure Feedback Advice on Launching a Green Chemistry Course and Epilogue Instructive Lecture Case Studies References Elimination of Solvents in the Organic Curriculum Introduction Solvent-Free or Not Solvent-Free? Industrial and Academic Case Studies Solvent-free Reactor Design Eliminating Solvents in the Introductory Organic Laboratory Conclusion References Organic Reactions Under Aqueous Conditions Introduction Studies on the Origin of Enhanced Reactivity in Aqueous Conditions Aqueous Chemistry in the Undergraduate Organic Laboratory Lecture Case Studies in Aqueous Chemistry Conclusion References Organic Chemistry in Greener Non-Aqueous Media Introduction Measures of Solvent Greenness Supercritical Carbon Dioxide Fluorous Solvents Ionic Liquids Liquid Polymers Other Greener Solvents Future Outlook Conclusion References Environmentally-Friendly Organic Reagents Introduction Greener Reagents in the Undergraduate Organic Laboratory Conclusion References Organic Waste Management and Recycling Introduction Three Industrial Case Studies Reduction of Waste Generation Managing Generated Waste Reagent Recycling Recycling Solvents Recycling Consumer and Natural Products Conclusion References Greener Organic Reactions under Microwave Heating Introduction Microwave Heating as a Greener Technology Historical Background to Microwave Chemistry Microwave Versus Conventional Thermal Heating Solvents for Microwave Heating A Comparison of Multi-Mode and Mono-Mode Microwave Ovens Microwave-Accelerated Reactions for the Undergraduate Laboratory Literature Examples of Microwave-Accelerated Reactions Conclusion References |
Disponibilité (2)
Cote | Support | Localisation | Statut |
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CH/669 | Livre | bibliothèque sciences exactes | Consultable |
CH/669 | Livre | bibliothèque sciences exactes | Consultable |