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Modeling lifetime and degradability of organic compounds in air, soil, and water systems (IUPAC Technical Report)
-
A. Sabljic
Veröffentlicht/Copyright:
1. Januar 2009
Published Online: 2009-01-01
Published in Print: 2001-08-01
© 2013 Walter de Gruyter GmbH, Berlin/Boston
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- Chemistry in the 21st century. A central science or a "back office" technical activity?
- Implementing green chemistry. An environmental policy for sustainability
- Green chemistry and the global water crisis
- Green chemistry as systems science
- Greening the curriculum. American Chemical Society education programs
- Centre for Green Chemistry, Monash University, Australia
- Teaching green chemistry. Third-year-level module and beyond
- Green chemistry in India
- Emergence of a sustainable business community
- Integrating green chemistry and sustainability into a specialty chemical company
- Sustainability metrics for vehicles
- Integrated emissions management for automotive painting operations
- Developments in CO2 research
- Supercritical fluid extraction of Z-sabinene hydrate-rich essential oils from Romanian Mentha hybrids
- Supercritical fluids-assisted micronization techniques. Low-impact routes for particle production
- Low-temperature manufacturing of fine pharmaceutical powders with supercritical fluid aerosolization in a Bubble Dryer®
- Green electrochemistry. Examples and challenges
- Solvent-free preparation of ionic liquids using a household microwave oven
- Quasi-nature catalysis. Rhodium-catalyzed CC bond formation in air and water
- Recoverable catalysts. Ultimate goals, criteria of evaluation, and the green chemistry interface
- Improving self-defense in plants. Martial arts for vegetables
- Modeling lifetime and degradability of organic compounds in air, soil, and water systems (IUPAC Technical Report)
- Use of Legendre transforms in chemical thermodynamics (IUPAC Technical Report)
- Selectivity in analytical chemistry (IUPAC Recommendations 2001)
Artikel in diesem Heft
- Chemistry in the 21st century. A central science or a "back office" technical activity?
- Implementing green chemistry. An environmental policy for sustainability
- Green chemistry and the global water crisis
- Green chemistry as systems science
- Greening the curriculum. American Chemical Society education programs
- Centre for Green Chemistry, Monash University, Australia
- Teaching green chemistry. Third-year-level module and beyond
- Green chemistry in India
- Emergence of a sustainable business community
- Integrating green chemistry and sustainability into a specialty chemical company
- Sustainability metrics for vehicles
- Integrated emissions management for automotive painting operations
- Developments in CO2 research
- Supercritical fluid extraction of Z-sabinene hydrate-rich essential oils from Romanian Mentha hybrids
- Supercritical fluids-assisted micronization techniques. Low-impact routes for particle production
- Low-temperature manufacturing of fine pharmaceutical powders with supercritical fluid aerosolization in a Bubble Dryer®
- Green electrochemistry. Examples and challenges
- Solvent-free preparation of ionic liquids using a household microwave oven
- Quasi-nature catalysis. Rhodium-catalyzed CC bond formation in air and water
- Recoverable catalysts. Ultimate goals, criteria of evaluation, and the green chemistry interface
- Improving self-defense in plants. Martial arts for vegetables
- Modeling lifetime and degradability of organic compounds in air, soil, and water systems (IUPAC Technical Report)
- Use of Legendre transforms in chemical thermodynamics (IUPAC Technical Report)
- Selectivity in analytical chemistry (IUPAC Recommendations 2001)
