Nach positiver Absolvierung der Lehrveranstaltung sind Studierende in der Lage zu evaluieren ob eine Transformation als umweltschonen und nachhaltig eingestuft werden kann, bzw. welche Parameter Optimierung bedürfen um dies zu erreichen.
1.) The 12 principles of green chemistry (Prevention / Atom economy / Less hazardous chemical synthesis / Designing safer chemicals / Safer solvents and auxiliaries / Design for energy efficiency / Use of renewable feedstocks / Reduce derivatives / Catalysis / Design for degradation / Real time analysis for pollution prevention / Inherently safer chemistry for accident prevention)
2.) Green Chemistry Metrics (E-Factor, Atom efficiency, Mass Intensity, Space time yield, effective mass yield etc.)
3.) Catalysis (solid acid/base catalysis, zeolites as catalysts, etc.)
4.) Modern metal assisted transformations (C-H activation, catalysis by non-precious metals, nano catalysis, photoredox catalysis, etc.)
5.) Biodegradable polymers
6.) Solvent free reactions
7.) Multistep reactions
8.) Ultrasound chemistry
9.) Flow chemistry
10.) Microwave chemistry
11.) In-line IR monitoring
12.) Biofuels and other fine chemicals from carbohydrates
13.) Mechanochemistry
14.) Enzymatic reactions
15.) Alternative reaction media (Reactions in ionic liquids, supercritical CO2,¿)
