Search Results - "nanostructure"

Intelligent surfaces in biotechnology scientific and engineering concepts, enabling technologies, and translation to bio-oriented applications /

Table of Contents: “…Spatz 8.1 Introduction 8.2 Chemical Approaches for Protein Immobilization 8.3 Biomolecule patterning by "top-down" techniques 8.4 Biomolecule Nanoarrays bu Block Copolymer Nanolithography 8.5 Application of Nanostructured Surfaces to Study Cell Adhesion 8.6 Conclusion Chapter 9. …”
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Intelligent surfaces in biotechnology scientific and engineering concepts, enabling technologies, and translation to bio-oriented applications /

Table of Contents: “…Spatz 8.1 Introduction 8.2 Chemical Approaches for Protein Immobilization 8.3 Biomolecule patterning by "top-down" techniques 8.4 Biomolecule Nanoarrays bu Block Copolymer Nanolithography 8.5 Application of Nanostructured Surfaces to Study Cell Adhesion 8.6 Conclusion Chapter 9. …”
An electronic book accessible through the World Wide Web; click to view

Surface engineering and technology for biomedical implants / by Oshida, Yoshiki

Table of Contents: “…New materials, new structures, and new technologies -- 7.1 Introduction -- 7.2 New materials -- 7.2.1 Bone materials -- 7.2.2 Porous materials -- 7.2.3 Nanomaterials -- 7.2.4 Functionally gradient materials -- 7.3 New structures -- 7.3.1 Nanostructures -- 7.3.2 Biomimetic functionalization -- 7.4 New technologies -- 7.4.1 Tissue engineering -- 7.4.2 Three-dimensional printing -- 7.4.3 Laser technologies -- 7.4.4 Electrospinning -- 7.4.5 Atmospheric plasma treatment -- 7.4.6 Friction stir welding -- 7.4.7 Near-net shape (NNS) forming -- 7.4.8 Miscellaneous --…”
An electronic book accessible through the World Wide Web; click to view

Surface engineering and technology for biomedical implants / by Oshida, Yoshiki

Table of Contents: “…New materials, new structures, and new technologies -- 7.1 Introduction -- 7.2 New materials -- 7.2.1 Bone materials -- 7.2.2 Porous materials -- 7.2.3 Nanomaterials -- 7.2.4 Functionally gradient materials -- 7.3 New structures -- 7.3.1 Nanostructures -- 7.3.2 Biomimetic functionalization -- 7.4 New technologies -- 7.4.1 Tissue engineering -- 7.4.2 Three-dimensional printing -- 7.4.3 Laser technologies -- 7.4.4 Electrospinning -- 7.4.5 Atmospheric plasma treatment -- 7.4.6 Friction stir welding -- 7.4.7 Near-net shape (NNS) forming -- 7.4.8 Miscellaneous --…”
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Polymeric sensors and actuators by Fink, Johannes Karl

Table of Contents: “…Optical Sensors 139 7.1 Conjugated Polymers 139 7.2 Amplified Fluorescent Polymers 145 7.3 Nanostructured Materials 160 7.4 Micelle-Induced Fluorescent Sensors 164 7.5 Fiber Sensors 164 7.6 Waveguides 167 7.7 Chiral Sensors 168 7.8 Molecularly Imprinted Polymers 168 7.9 Glucose Sensors 172 7.10 Hydrophilic Polymer Matrices 180 7.11 Special Analytes 181 7.12 pH Sensors 207 8. …”
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Polymeric sensors and actuators by Fink, Johannes Karl

Table of Contents: “…Optical Sensors 139 7.1 Conjugated Polymers 139 7.2 Amplified Fluorescent Polymers 145 7.3 Nanostructured Materials 160 7.4 Micelle-Induced Fluorescent Sensors 164 7.5 Fiber Sensors 164 7.6 Waveguides 167 7.7 Chiral Sensors 168 7.8 Molecularly Imprinted Polymers 168 7.9 Glucose Sensors 172 7.10 Hydrophilic Polymer Matrices 180 7.11 Special Analytes 181 7.12 pH Sensors 207 8. …”
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Micro- and nano-structured interpenetrating polymer networks : from design to applications /

Table of Contents: “…Ipns characterization techniques 4.3 Influence of HBP(A) contents in ipns on ipns mechanical properties 4.3.1 Dynamic mechanical analysis (DMA) 4.3.2 Thermogravimetric analysis 4.4 Influence of the reactive diluent in ipns on ipns properties 4.5 Conclusions References 5 Micro- meso- and nano-porous systems designed from IPNs Daniel Grande 5.1 Introduction 5.2 Porous Systems Derived from Semi-IPNs 5.2.1 Porous Networks by Selective Degradation of Un-Cross-Linked Chains 5.2.2 Porous Networks by Solvent Extraction of Un-Cross-Linked Chains 5.3 (Nano-)Porous Systems Derived from IPNs 5.3.1 Pioneering studies 5.3.2 Porous Networks by "Selective" Electron Beam Degradation 5.3.3 Nano-Porous Networks by Selective Hydrolysis 5.4 Conclusions 5.5 Acknowledgements References 6 Natural rubber-based micro- and nano-structured IPNs Sa-Ad Riyajan 6.1 Introduction 6.2 Natural rubber 6.2.1 Basic information of NR 6.2.2 Properties 6.2.3 Applications Synthesis of polymer IPN 6.3 Synthesis of polymer IPN 6.4 Preparation of Semi-IPN ENR and PVA 6.5 Properties of IPN made from NR and plastics 6.5.1Swelling behavior and solvent resistance 6.5.2 Mechanical strength 6.5.3 Creep properties 6.5.4 Thermal properties 6.6 Biodegradation 6.7 Possible application 6.8 Conclusion 6.9 Acknowledgement References 7 Synthesis and applications of IPNs based on smart polymers Guillermina Burillo, Emilio Bucio and Lorena Garcia-Uriostegui 7.1 Introduction 7.2 Stimuli-responsive polymers 7.3 IPNs and SIPNs 7.4 The synthesis and the applications of SIPNs and IPNs 7.4.1 Sequential SIPNs 7.4.2 The simultaneous method for the synthesis of SIPNs 7.4.3 A comparison of the properties between sequential and simultaneous SIPN films 7.4.4 The SIPNs of sensitive star polymers 7.5 IPNs 7.5.1 IPNs synthesized in one step by the simultaneous method 7.5.2 IPNs synthesized in two steps 7.6 IPNs and SIPNs synthesized by ionizing radiation 7.7 S-IPN and IPNs in the heavy ions immobilization 7.8 The novel architectures of IPNs developed by ionizing radiation polymerization 7.8.1 Polymer-g-IPNs synthesized via irradiation and the addition of a chemical initiator in three steps 7.8.2 Polymer-g- IPNs synthesized only by radiation in three steps 7.9 Conclusions 7.10 Acknowledgments References 8 Microscopy of IPNs Rameshwar Adhikari 8.1 Introduction and Overview 8.2 Sample Preparation for Microscopic Analysis 8.2.1 Microtomy and Ultramicrotomy 8.2.2 Staining of Thin Sections 8.2.3 Etching of Surfaces 8.2.4 Fracture Surface Preparation 8.3 Microscopy of Interpenetrating Polymer Networks (IPNs): An Overview 8.4 Morphological Characterization of Polymer Networks 8.4.1 Biomaterials and Biomedical Materials 8.4.2 Porous Networks 8.4.3 Elastomer and Latex Based Networks 8.4.4 Micro- and Nanostructured Materials and Hybrids 8.4.5 IPN-like Systems 8.5 Concluding Notes Acknowledgements 9. …”
An electronic book accessible through the World Wide Web; click to view

Micro- and nano-structured interpenetrating polymer networks : from design to applications /

Table of Contents: “…Ipns characterization techniques 4.3 Influence of HBP(A) contents in ipns on ipns mechanical properties 4.3.1 Dynamic mechanical analysis (DMA) 4.3.2 Thermogravimetric analysis 4.4 Influence of the reactive diluent in ipns on ipns properties 4.5 Conclusions References 5 Micro- meso- and nano-porous systems designed from IPNs Daniel Grande 5.1 Introduction 5.2 Porous Systems Derived from Semi-IPNs 5.2.1 Porous Networks by Selective Degradation of Un-Cross-Linked Chains 5.2.2 Porous Networks by Solvent Extraction of Un-Cross-Linked Chains 5.3 (Nano-)Porous Systems Derived from IPNs 5.3.1 Pioneering studies 5.3.2 Porous Networks by "Selective" Electron Beam Degradation 5.3.3 Nano-Porous Networks by Selective Hydrolysis 5.4 Conclusions 5.5 Acknowledgements References 6 Natural rubber-based micro- and nano-structured IPNs Sa-Ad Riyajan 6.1 Introduction 6.2 Natural rubber 6.2.1 Basic information of NR 6.2.2 Properties 6.2.3 Applications Synthesis of polymer IPN 6.3 Synthesis of polymer IPN 6.4 Preparation of Semi-IPN ENR and PVA 6.5 Properties of IPN made from NR and plastics 6.5.1Swelling behavior and solvent resistance 6.5.2 Mechanical strength 6.5.3 Creep properties 6.5.4 Thermal properties 6.6 Biodegradation 6.7 Possible application 6.8 Conclusion 6.9 Acknowledgement References 7 Synthesis and applications of IPNs based on smart polymers Guillermina Burillo, Emilio Bucio and Lorena Garcia-Uriostegui 7.1 Introduction 7.2 Stimuli-responsive polymers 7.3 IPNs and SIPNs 7.4 The synthesis and the applications of SIPNs and IPNs 7.4.1 Sequential SIPNs 7.4.2 The simultaneous method for the synthesis of SIPNs 7.4.3 A comparison of the properties between sequential and simultaneous SIPN films 7.4.4 The SIPNs of sensitive star polymers 7.5 IPNs 7.5.1 IPNs synthesized in one step by the simultaneous method 7.5.2 IPNs synthesized in two steps 7.6 IPNs and SIPNs synthesized by ionizing radiation 7.7 S-IPN and IPNs in the heavy ions immobilization 7.8 The novel architectures of IPNs developed by ionizing radiation polymerization 7.8.1 Polymer-g-IPNs synthesized via irradiation and the addition of a chemical initiator in three steps 7.8.2 Polymer-g- IPNs synthesized only by radiation in three steps 7.9 Conclusions 7.10 Acknowledgments References 8 Microscopy of IPNs Rameshwar Adhikari 8.1 Introduction and Overview 8.2 Sample Preparation for Microscopic Analysis 8.2.1 Microtomy and Ultramicrotomy 8.2.2 Staining of Thin Sections 8.2.3 Etching of Surfaces 8.2.4 Fracture Surface Preparation 8.3 Microscopy of Interpenetrating Polymer Networks (IPNs): An Overview 8.4 Morphological Characterization of Polymer Networks 8.4.1 Biomaterials and Biomedical Materials 8.4.2 Porous Networks 8.4.3 Elastomer and Latex Based Networks 8.4.4 Micro- and Nanostructured Materials and Hybrids 8.4.5 IPN-like Systems 8.5 Concluding Notes Acknowledgements 9. …”
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Cancer Nanotechnology Basic,Translational and Clinical Research /

Open Access

Cancer Nanotechnology Basic,Translational and Clinical Research /

Open Access

Advanced catalytic materials /

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Advanced catalytic materials /

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Journal of Advanced Ceramics

Open Access

An essential guide to electronic material surfaces and interfaces / by Brillson, L. J.

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Journal of Advanced Ceramics

Open Access

An essential guide to electronic material surfaces and interfaces / by Brillson, L. J.

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Auger electron spectroscopy : practical application to materials analysis and characterization of surfaces, interfaces, and thin films / by Wolstenholme, John

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Auger electron spectroscopy : practical application to materials analysis and characterization of surfaces, interfaces, and thin films / by Wolstenholme, John

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