This trail-blazing volume covers nanoreactor essentials, including a review of synthetic procedures and materials used to develop various nanoreactor configurations. It explores nanoreactor theory and design, highlighting the fundamental differences between molecular events in macroscale and nanoscale reactors. The book offers a clear look at the dominating role of interfaces and how they affect nanoreactor properties and processes. Moreover, it shows how chemical reaction engineering can be applied in analyzing thermodynamics of self-assembly, colloidal stability, reaction kinetics and stochastic effects, and nanoreactor optimization. The book explores integrated nanoreactor systems, covering a theoretical treatment of how nanoreactors can be mobilized inside cells and tissues or as nanostructured films or coatings. Supported by over 100 diagrams and 250 equations, this definitive resource spotlights 14 bionanoreactor systems in development, including organic polymers, vesicles, polymer-stabilized liposomes, artificial protein cages, stem cells, DNA architectures, and others.It was shown for both cases that the temperature of crystallization in such droplets is significantly decreased (or the required ... For odd alkanes, only a strong tem- perature shift compared to the bulk system, but no structure change is observed, anbsp;...
|Title||:||Nanoreactor Engineering for Life Sciences and Medicine|
|Publisher||:||Artech House - 2008|