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Preface; Organization; Chairs; Program Committee; Supported By; Contents; Nanomaterials Engineering; 1 Nanoliposomes Production by a Protocol Based on a Simil-Microfluidic Approach; Abstract; 1 Introduction; 2 Experimental; 2.1 Materials and Methods; 3 Results and Discussion; 3.1 Nanoliposomes Production; 3.2 Influence of Volumetric Flow Rate Ratio on Liposomes Formation; 3.3 Influence of Lipid Concentration on Liposomes Formation; 4 Conclusions; References; 2 Production of Nanostructured Microspheres Biopolymer-Active Principle-Magnetic Nanoparticles by Supercritical Assisted Atomization

Abstract1 Introduction; 2 Materials and Methods; 3 Results and Discussion; 3.1 Stability of Suspensions; 3.2 Micronization Experiments; 4 Conclusions; Acknowledgements; References; 3 Encapsulation of Hydrophilic and Lipophilic Compounds in Nanosomes Produced with a Supercritical Based Process; Abstract; 1 Introduction; 2 Materials; 3 Methods; 3.1 Liposomes Dimensions; 3.2 Liposomes Morphology; 3.3 Encapsulation Efficiency; 3.4 Statistical Analysis; 4 Apparatus; 5 Results; 5.1 Empty Liposomes; 5.2 Hydrophilic Compounds Encapsulation; 5.3 Lipophilic Compounds Encapsulation

5.4 Microscopy Characterization6 Conclusions; Acknowledgements; References; 4 Supercritical Antisolvent Process: PVP/Nimesulide Coprecipitates; Abstract; 1 Introduction; 2 Materials, Methods and Procedures; 2.1 Materials; 2.2 SAS Apparatus and Procedure; 2.3 Analytical Methods; 3 Experimental Results; 3.1 Effect of Polymer/Drug Ratio; 3.2 Effect of Overall Solute Concentration; 3.3 Effect of the Operating Temperature and Pressure; 3.4 Characterization of Precipitates; 4 Discussion; 5 Conclusions; References; 5 PLA-Based Nanobiocomposites with Modulated Biodegradation Rate; Abstract

1 Introduction2 Materials; 3 Experimental; 3.1 Sample Preparation; 3.2 Hydrolysis Tests; 3.3 Calorimetric Tests (DSC); 4 Results; 4.1 Hydrolysis Tests: PH Evolution; 4.2 Hydrolysis Tests: Weight and Appearance Evolution; 4.3 Hydrolysis Tests: Calorimetric Characterization of the Samples; 5 Conclusions; References; Modelling of Bionanomaterials; 6 Modelling Approach to Enzymatic pH Oscillators in Giant Lipid Vesicles; Abstract; 1 Introduction; 2 Results: Modelling; 3 Conclusions; Acknowledgements; References

7 Dissipative Particle Dynamics Study of Alginate/Gelatin Aerogels Obtained by Supercritical DryingAbstract; 1 Introduction; 2 Materials and Methods; 2.1 Dissipative Particle Dynamics; 2.2 Mechanical Properties Calculations; 2.3 Production of Alginate/Gelatin Aerogels; 3 Results; 3.1 DPD Results; 4 Conclusion; References; 8 Molecular Dynamics and Morphing Protocols for High Accuracy Molecular Docking; Abstract; 1 Introduction; 2 Materials and Methods; 2.1 Data Set; 2.2 Sampling Stage; 2.3 Morphing; 2.4 Docking Stage; 3 Results; 4 Conclusion; References

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