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Selective Biorecognition On Polymer Surfaces: General Issues
Patterning And Functionalization Of Polymeric Surfaces
Biorecognition Molecules: Types And Molecular Basis And Development Of Specificity
Chemical Surface Biofunctionalization Of Polymers
Gradient Polymer Surfaces For Biomedical Applications
Polymer Replication Techniques
Lithographic Processes For The Design Of Biosurfaces
Inkjet Printing Of Biomolecules For Biorecognition
Honeycomb Structured Films Prepared By Breath Figures: Fabrication And Application For Biorecognition Purposes
Polymer Brushes With Precise Architectures For Molecular Biorecognition
Microfluidic Systems With Functional Patterned Surface For Biomedical Applications
Biopatterns Created Using Colloidal Templates
Electrochemical Approaches For Molecular Surface Imprinting Of Polymers Towards Fully Synthetic Receptors For Selective Recognition Of Proteins
Bio-Nanostructured Interfaces Fabricated By Scanning Probe Nanolithography (Spn)
Conclusions And Perspectives.
Patterning And Functionalization Of Polymeric Surfaces
Biorecognition Molecules: Types And Molecular Basis And Development Of Specificity
Chemical Surface Biofunctionalization Of Polymers
Gradient Polymer Surfaces For Biomedical Applications
Polymer Replication Techniques
Lithographic Processes For The Design Of Biosurfaces
Inkjet Printing Of Biomolecules For Biorecognition
Honeycomb Structured Films Prepared By Breath Figures: Fabrication And Application For Biorecognition Purposes
Polymer Brushes With Precise Architectures For Molecular Biorecognition
Microfluidic Systems With Functional Patterned Surface For Biomedical Applications
Biopatterns Created Using Colloidal Templates
Electrochemical Approaches For Molecular Surface Imprinting Of Polymers Towards Fully Synthetic Receptors For Selective Recognition Of Proteins
Bio-Nanostructured Interfaces Fabricated By Scanning Probe Nanolithography (Spn)
Conclusions And Perspectives.