Publications by authors named "M P Satta"
Article Synopsis
- * New electron interaction models for nitrogen, oxygen, and carbon dioxide have been validated up to 10 MeV, which is important given carbon dioxide's role as a greenhouse gas.
- * Results show that the models align well with existing literature, confirming their reliability and enabling further research into the effects of ionization on atmospheric chemistry and climate impacts.
Pharmaceuticals are among the most challenging products to assess by life cycle assessment (LCA). The main drawback highlighted by LCA practitioners is the lack of inventory data, both regarding the synthesis of active pharmaceutical ingredient (API) precursors (upstream) and the details concerning the downstream phases (use and end of life). A short critical review of pharma-LCAs found in the literature is here proposed, with discussion of several tools and models used to predict the environmental impacts derived from the life cycle of pharmaceuticals, emphasizing current strengths and weaknesses, and exploring the possibilities for improvements.
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- Gas-phase ion chemistry plays a significant role in atmospheric processes, particularly in forming cloud condensation nuclei affected by cosmic rays in the upper troposphere-stratosphere.
- This study focuses on an exothermic ionic reaction that produces hydroperoxyl radical (HO) and protonated formaldehyde from methanol radical cation and molecular oxygen, highlighting methanol's importance in atmospheric composition.
- Experimental findings using synchrotron radiation demonstrate a rapid hydrogen transfer from methanol to oxygen, supported by computational analysis, and suggests that these ion-driven reactions are crucial for understanding atmospheric chemistry.
The impact of cosmic rays' energetic subatomic particles on climate and global warming is still controversial and under debate. Cosmic rays produce ions that can trigger fast reactions affecting chemical networks in the troposphere and stratosphere especially when a large amount of relevant trace gases such as carbon dioxide, methane, sulfur dioxide and water are injected by volcanic eruptions. This work focuses on synchrotron experiments and an theoretical study of the ion chemistry of carbon dioxide and nitrous oxide radical cations reacting with water.
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