Description |
1 online resource |
Series |
Computer science, technology and applications |
Contents |
FOCUS ON BIOMIMETICS RESEARCH ; FOCUS ON BIOMIMETICS RESEARCH ; CONTENTS ; PREFACE ; BIOMIMICRY, MICROSYSTEMS, AND BONE ; ABSTRACT ; BIOMIMICRY ; BONE ; BONE REMODELING ; THE BONE CELLS ; WNT SIGNALING PATHWAY AND BONE; MECHANOTRANSDUCTION OF BONE CELLS ; POTENTIAL LIMITATIONS OF IN VITRO MODEL SYSTEMS ; MICROFLUIDICS ; FABRICATION TECHNIQUES ; LAMINAR FLOW ; MICROFILTERS ; MICROMIXERS ; MICROVALVES ; DATA ANALYSIS ; MICROFLUIDICS AND BONE ; APPLICATIONS OF MICROFLUIDIC DEVICES ; CELL CULTURE ; WHOLE CELL ANALYSIS; SAMPLE PREPARATION AND TECHNIQUES |
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POLYMERASE CHAIN REACTION ANALYSISIN MICROFLUIDIC SYSTEMS PROTEIN ANALYSIS ; IMMUNOASSAYS ; PHARMACOLOGICAL TREATMENT OF CELLS; COMMUNICATION STUDIES USING MICROFLUIDIC DEVICES ; CONCLUSION ; REFERENCES ; BIOMIMETIC ADHESIVES ; ABSTRACT ; INTRODUCTION ; Definition of Biomimetics; Biomimetic Adhesives ; ADHESION MECHANISMS ; 1. Chemical Adhesion ; 2. Wet Adhesion or Capillarity ; 3. Dry (van der Waals) Adhesion ; ADHESIVE TYPES AND APPLICATIONS ; Chemical Adhesion ; Sandcastle Worm ; Potential Uses of Sandcastle Worms Inspired Adhesives; Echinoderms ; 1. Tube Feet ; 2. Larval Adhesion |
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3. Sea Cucumber Potential Uses of Echinoderms Inspired Adhesives; Barnacles ; Potential Uses of Barnacles Inspired Adhesives ; Marine Mussels ; Potential Uses of Marine Mussels Inspired Adhesives ; Wet Adhesion or Capillarity; Tree Frogs ; Potential Uses of Tree Frogs Inspired Adhesives ; Insects ; Potential Uses of Insects Inspired Adhesives ; Dry Adhesion (van der Waals Adhesion) ; Geckos ; Potential Uses of Gecko Inspired Adhesives ; CONCLUSION ; REFERENCES; BIOMIMETIC PHOTONIC CRYSTAL FROM BUTTERFLY WINGS ; ABSTRACT ; INTRODUCTION |
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SONOCHEMICAL METHOD TOWARDS REPLICATION OF PHOTONIC STRUCTURES FROM BUTTERFLY WINGSCU-DOPED WO3 MATERIALS WITH PHOTONIC STRUCTURES FROM BUTTERFLY WINGS FOR HIGH PERFORMANCE SENSORS ; REPLICATION OF POLYPYRROLE WITH PHOTONIC STRUCTURES FROM BUTTERFLY WINGS AS BIOSENSOR ; CONCLUSION ; EXPERIMENTAL SECTION ; 1. Synthesis of TiO2, SnO2, SiO2 Replicas with Photonic Structures ; 2. Cu Dopped WO3 with Photonic Structures ; 3. Synthesis of Biomorphic PPy with Photonic Structures ; 4. Measurement of Biomolecule Sensing Properties ; 5. Characterization ; REFERENCES ; BIOMIMETIC MOLECULAR SWITCHES |
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ABSTRACT 1. INTRODUCTION; 2. NATURAL MOLECULAR DEVICES; 3. BIOINSPIRED ARTIFICIAL MOLECULAR DEVICES ; 3.1. Rhodopsin-Based Molecular Photoswitches; 3.2. GFP-based Molecular Photoswitches ; CONCLUSION ; ACKNOWLEDGMENTS ; REFERENCES ; A VOLTAMMETRIC SENSOR BASED ON A HEMIN MODIFIED MULTIWALLED CARBON NANOTUBE FOR HYDROQUINOME DETERMINATION IN PHARMACEUTICAL SAMPLES ; ABSTRACT ; INTRODUCTION ; 1. METHODOLOGY ; 1.1. Equipment ; 1.2. Reagents ; 1.3. Preparation of the Hemin Modified MWCNT Paste Electrode ; 2. RESULTS AND DISCUSSION ; 2.1. Performance Evaluation of the Voltammetric Sensor |
Bibliography |
Includes bibliographical references and index |
Notes |
Print version record |
Subject |
Bionics.
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Biomimicry.
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Biomimetics.
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Bionics
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Biomimetics
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COMPUTERS -- Cybernetics.
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Biomimetics
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Biomimicry
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Bionics
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Form |
Electronic book
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Author |
Scipione, Abele
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LC no. |
2020677595 |
ISBN |
1624173330 |
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9781624173332 |
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