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200 10$aFrom sugar to revolution$b[electronic resource] $ewomen's visions of Haiti, Cuba, and the Dominican Republic /$fMyriam J.A. Chancy
210   $aWaterloo, Ont. $cWilfrid Laurier University Press$dc2012
215   $a1 online resource (393 p.) 
300   $aIssued as part of the Canadian Electronic Library. Canadian publishers collection.
311   $a1-55458-428-0 
320   $aIncludes bibliographical references and index.
320   $aIncludes bibliographical references and index.
606   $aCuban literature$xWomen authors$xHistory and criticism
606   $aDominican literature$xWomen authors$xHistory and criticism
606   $aHaitian literature$xWomen authors$xHistory and criticism
606   $aWomen and literature$zCaribbean Area
606   $aWomen artists$zCaribbean Area
615  0$aCuban literature$xWomen authors$xHistory and criticism.
615  0$aDominican literature$xWomen authors$xHistory and criticism.
615  0$aHaitian literature$xWomen authors$xHistory and criticism.
615  0$aWomen and literature
615  0$aWomen artists
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700   $aChancy$b Myriam J. A$g(Myriam Jose?phe Aime?e),$f1970-$01505506
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200 00$aBiosurfaces $ea materials science and engineering perspective /$fedited by Kantesh Balani [and three others] ; contributors, Arvind Agarwal [and seventeen others]
210  1$aHoboken, New Jersey :$cWiley,$d2015.
210  4$dİ2015
215   $a1 online resource (397 p.)
300   $aIncludes index.
311   $a1-322-87706-8 
311   $a1-118-29997-3 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aCover; Contents; Foreword; Preface; Contributors; Chapter 1 INTRODUCTION TO BIOMATERIALS; 1.1 Introduction; 1.2 Classification of Biomaterials; 1.2.1 Polymers; 1.2.2 Silicone Biomaterials; 1.2.3 Metals; 1.2.4 Ceramics; 1.2.5 Mechanical Properties of Ceramics; 1.3 Summary; Questions; References; Chapter 2 TISSUE INTERACTION WITH BIOMATERIALS; 2.1 Introduction; 2.2 Protein Adsorption and Cell Adhesion; 2.2.1 Cell Adhesion; 2.3 Cell Migration; 2.4 Controlled Cell Deposition; 2.4.1 Hydrophobicity; 2.4.2 Material Chemistry and Surface Charge; 2.4.3 Surface Topography and Roughness
327   $a2.5 Extracellular Matrix2.6 Biomineralization; 2.6.1 Inorganic Structure of Life; 2.6.2 The Major Groups of Biominerals; 2.6.3 Types of Biomineralization; 2.6.4 Biomineral Types and Functions; Questions; References; Chapter 3 HOST RESPONSE OF IMPLANTED BIOMATERIALS; 3.1 Immune Response to Implanted Biomaterials; 3.1.1 Introduction; 3.1.2 Activation of the Immune System; 3.1.3 Cells of the Immune System; 3.1.4 Antibodies; 3.1.5 Antigens; 3.1.6 Antigen Processing and Presentation; 3.2 Transplant Immunology; 3.3 Biocompatibility; 3.3.1 Definition; 3.3.2 In vitro and in vivo Tests; Exercises
327   $aReferencesChapter 4 FUNDAMENTALS OF SURFACE MODIFICATION; 4.1 Preamble; 4.2 Introduction; 4.3 Surface Properties of Biomaterials; 4.3.1 Protein Adsorption; 4.3.2 Cell Adhesion Ability; 4.3.3 Biocompatibility; 4.3.4 Biomimetics; 4.3.5 Biodegradation; 4.3.6 Hydrophobic and Hydrophilic Surfaces; 4.4 Surface Modifications; 4.4.1 Objectives of Surface Modification of Biomaterials; 4.4.2 Methods of Surface Modifications; 4.5 Applications; Questions; References; Chapter 5 MULTI-LENGTH SCALE HIERARCHY IN NATURAL MATERIALS; 5.1 Introduction; 5.2 Multi-Length-Scale Hierarchy; 5.3 Human Bone
327   $a5.4 Turtle Shell5.5 Wood; 5.6 Silk; 5.7 Nacre; 5.8 Gecko-Feet; 5.8.1 Synthesis of Gecko-Foot-Like Adhesives; 5.9 Lotus Leaf; 5.9.1 Mimicking Lotus Leaf Structure; Questions; References; Chapter 6 SUPERHYDROPHOBIC SURFACES; 6.1 Introduction; 6.2 Surfaces and Superhydrophobicity in Nature; 6.3 Classification of Surfaces; 6.3.1 Learning from Nature; 6.3.2 Role of Chemical Composition and Two-Level Roughness; 6.3.3 Mechanical Aspects of Surfaces; 6.4 Mechanics and Nature of Wetting; 6.5 Fabrication of Artificial Superhydrophobic Surfaces; 6.5.1 Soft Lithographic Imprinting; 6.5.2 Plasma Treatment
327   $a6.5.3 Sol-Gel Technique6.5.4 Combination Based on Chemical Vapor Deposition; 6.5.5 Electrospinning; 6.6 Preparation of Metallic Superhydrophobic Surfaces; 6.7 Controlled Wettability Surfaces (CWS); 6.8 Conclusions; Questions; References; Chapter 7 SURFACE ENGINEERING AND MODIFICATION FOR BIOMEDICAL APPLICATIONS; 7.1 Corrosion of Biomaterials and Need for Surface Coating for Biomedical Applications; 7.2 Surface Reactivity and Body Cell Response; 7.3 Key Requirements of Surface Coating; 7.3.1 Surface Roughness; 7.3.2 Porosity; 7.3.3 Cell Adhesion and Growth; 7.3.4 Contamination/Leaching
327   $a7.3.5 Coating Thickness and Microstructure
330   $a"Ideal as a graduate textbook, this book is aimed at helping design effective biomaterials, taking into account the complex interactions that occur at the interface when a synthetic material is inserted into a living system.  Surface reactivity, biochemistry, substrates, cleaning, preparation, and coatings are presented, with numerous case studies and applications throughout. Highlights include: Starts with concepts and works up to real-life applciations such as implantable devices, medical devices, prosthetics, and drug delivery technology  Addresses surface reactivity, requirements for surface coating, cleaning and preparation techniques, and characterization  Discusses the biological response to coatings  Addresses biomaterial-tissue interaction  Incorporates nanomechanical properties and processing strategies"--$cProvided by publisher.
330   $a"This book is aimed at helping design effective biomaterials, taking into account the complex interactions that occur at the interface when a synthetic material is inserted into a living system. Surface reactivity, biochemistry, substrates, cleaning, preparation, and coatings are presented, with numerous case studies and applications throughout"--$cProvided by publisher.
606   $aSurfaces (Technology)
606   $aBiomedical materials
615  0$aSurfaces (Technology)
615  0$aBiomedical materials.
676   $a620/.44
686   $aTEC021000$aSCI013050$aTEC009010$2bisacsh
702   $aBalani$b Kantesh
702   $aAgarwal$b Arvind
712 02$aAmerican Ceramic Society.
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