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Energy landscapes of nanoscale systems / Edited by David J. Wales.

Contributor(s): Wales, David J [editor.].
Material type: materialTypeLabelBookSeries: Frontiers of nanoscience: v. 21.Publisher: Amsterdam, Netherlands : Elsevier, 2022Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9780323852852; 0323852858.Subject(s): Nanotechnology | Force and energy | Force and energy | NanotechnologyAdditional physical formats: ebook version :: No title; No titleDDC classification: 620.5 Online resources: ScienceDirect
Contents:
<P>1. The energy landscape perspective: Cutting a Gordian knot 2. Energy Landscapes and dynamics of Polycyclic Aromatic Hydrocarbon clusters from coarse-grained models 3. A fluxional anionic water trimer 4. Global optimization of gold-based nanoalloys: AuCo, AuCu and AuRh 5.Combination of genetic algorithm and generalized-ensemble algorithms for biomolecular simulations 6. Self-Assembly of Colloidal Open Crystals: Programmed to Yield 7. Colloidal clusters on curved surfaces 8. Energy landscapes of pure and doped ZnO: from bulk crystals to nanostructures 9. Free energy landscapes of DNA and its assemblies: Perspectives from coarse-grained modelling 10. Controlled Dynamics and Preferential Trapping on Energy Landscapes 11. Towards Web Assisted Modelling at the Nanoscale 12. Energy landscapes of low-dimensional systems -- concepts and examples 13. Roy Johnston's Research at Oxford University</p>
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<P>1. The energy landscape perspective: Cutting a Gordian knot 2. Energy Landscapes and dynamics of Polycyclic Aromatic Hydrocarbon clusters from coarse-grained models 3. A fluxional anionic water trimer 4. Global optimization of gold-based nanoalloys: AuCo, AuCu and AuRh 5.Combination of genetic algorithm and generalized-ensemble algorithms for biomolecular simulations 6. Self-Assembly of Colloidal Open Crystals: Programmed to Yield 7. Colloidal clusters on curved surfaces 8. Energy landscapes of pure and doped ZnO: from bulk crystals to nanostructures 9. Free energy landscapes of DNA and its assemblies: Perspectives from coarse-grained modelling 10. Controlled Dynamics and Preferential Trapping on Energy Landscapes 11. Towards Web Assisted Modelling at the Nanoscale 12. Energy landscapes of low-dimensional systems -- concepts and examples 13. Roy Johnston's Research at Oxford University</p>

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