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ICBNEA 2018 : 20th International Conference on Biomaterials Nanoarchitectonics for Engineering Applications

LocationJapan - Tokyo
Start DateNov 12, 2018
End DateNov 13, 2018
Event TypeConference
Subject AreaNanoscience - NanotechnologyNanomaterialsNano EngineeringNanophysicsNanochemistry
DESCRIPTION

The ICBNEA 2018 event aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results on all aspects of Biomaterials Nanoarchitectonics for Engineering Applications. It also provides a premier interdisciplinary platform for researchers, practitioners and educators to present and discuss the most recent innovations, trends, and concerns as well as practical challenges encountered and solutions adopted in the fields of Biomaterials Nanoarchitectonics for Engineering Applications.

Topics:

 - Biomaterials Nanoarchitectonics
 - Nanotechnology, Nanoarchitectonics and Nanoparticles
 - Drug and Gene Delivery Technologies
 - Conjugated Nanoparticles
 - Supermolecules

 - Supramolecular Chemistry
 - Drug Delivery Systems with Host–Guest Systems
 - Drug Delivery Systems with Supramolecular Assemblies
 - Interfacial Supramolecular Systems for Mechanically Controlled Drug Delivery Systems
 - Injectable Hydrogels
 - Chemical Gel (Covalent Network) Systems
 - Physical Gel (Noncovalent Network) Systems
 - Nature-Inspired Polymers
 - Carbohydrate-Inspired Polymers
 - Peptide/Protein-Inspired Polymers

 - Regenerative Medicines
 - Preparation of Polymer Scaffolds by Ice Particulate Method for Tissue Engineering
 - Preparation of Funnel-Like Polymer Porous Scaffolds
 - Preparation of Micropatterned Polymer Porous Scaffolds
 - Preparation of Porous Scaffolds of Biodegradable Synthetic Polymers
 - Preparation of Porous Scaffolds of Biodegradable Naturally Derived Polymers
 - Cell Sheet Technologies

 - Nanostructure of Thermoresponsive Cell Culture Surfaces Facilitates Cell Sheet Formation and Manipulation
 - ECM-Mimicking Nanostructure on Thermoresponsive Cell Culture Surfaces for Creating Functional Cell Sheets
 - Spatially Organized Three-Dimensional Tissue Reconstruction Using Cell Sheet Technologies

 - Cell Manipulation Technologies
 - Development History of Photoactivatable Substrates
 - Diagnostics Technologies
 - Point-of-Care Diagnostics
 - Diagnostics Targeting Proteins
 - Diagnostics Targeting Nucleic Acids
 - Conclusions and Future Trends

 - Biosensors
 - Conventional Biosensors and Biosensing Techniques
 - Surface Plasmon Resonance Biosensors
 - Field-Effect Transistor-Based Biosensors
 - Gold Nanoparticles-Based Optically Detectable Biosensors

 - Nanomechanical Sensors
 - Nanomechanical Sensors
 - Functionalization of Nanomechanical Sensors
 - Nanomechanical Sensing of Biomolecules

 - Nanotheranostics
 - Metallic Nanomaterials for Theranostics
 - Carbon-Based Nanomaterials for Theranostics
 - Polymer-Based Theranostics Nanomaterials

 - Next Generation Technologies
 - Self-Oscillating Polymer Materials
 - Design of Self-Oscillating Polymer Gels
 - Design of Biomimetic Soft Actuators
 - Design of Autonomous Mass Transport Systems
 - Self-Oscillating Functional Fluids
 - Self-Oscillating Block Copolymers

 - Soft Shape-Memory Materials
 - Classification of Shape-Memory Materials
 - Biomedical Applications of Shape-Memory Materials

 - Cell Surface Engineering via Methacryloyl-Derivatized Carbohydrates
 - Surface Modification of Mammalian Cells
 - Metabolic Surface Engineering of Living Cells
 - Metabolic Delivery of Methacryloyl Groups into Carbohydrates
 - Surface Modification of Mammalian Cells With Thermoresponsive Polymers
 - Preparation of Glycol Protein-Conjugated Hydrogels

 - Fibrous Materials
 - Physical Signal-Responsive Fibers
 - Chemical Signal-Responsive Fibers

 

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