Aix-en-Provence, : DICE Éditions, 2021

979-1-0975-7803-9

1 online resource (268 p.)

Confluence des droits

DameronAudrey

DupéréOlivier

FuthazarGuillaume

KnetschJonas

Lemoine-SchonneMarion

Maljean-DuboisSandrine

OllardRomain

PeyenLoïc

Pongérard-PayetHélène

SindicoFrancesco

TabauAnne-Sophie

Zattara-GrosAnne-Françoise

Law

changements climatiques

accord de Paris

adaptation

territoires

La Réunion

droit global

gouvernance

effectivité

cohérence

articulation

outre-mer

Francese

La recherche collective dont cet ouvrage est le fruit s’est donné pour ambition de cerner les implications juridiques de l’adaptation des territoires aux changements climatiques. L’équipe s’est appuyée sur l’exemple de l’île de La Réunion pour s’interroger sur les traductions juridiques du discours politique résultant de la COP 21 qui consistait, tout à la fois, à mettre l’accent sur l’adaptation aux effets des changements climatiques et non plus seulement sur l’atténuation des émissions de gaz à effet de serre, à décentraliser les politiques climatiques de manière à les faire correspondre aux spécificités locales, à adopter une approche transversale de la vulnérabilité des territoires et des populations, et à favoriser les échanges de bonnes pratiques au titre d’une coopération globale. Dans ce contexte, les travaux conduits identifient, dans différentes branches du droit, les expressions de l’adaptation, et déterminent si le droit applicable à La Réunion est adapté à l’enjeu climatique. L’accent est mis sur les processus d’agencement des éléments hétérogènes identifiés comme autant de composantes de l’adaptation à La Réunion, afin de révéler et d’évaluer les mécanismes juridiques qui permettent de faire naître et de stabiliser les attentes normatives des parties prenantes de l’adaptation des territoires aux changements climatiques. Cette recherche a été financée par le ministère de la Transition écologique et solidaire, dans le cadre du programme OMERAD (15-MCGOT-GICC-2-CVS-009).

Hoboken, : Wiley, 2013

3-527-64411-3

1 online resource (413 p.)

Advances in Electrochemical Science and Engineering ; ; v. 13

CHE 140f

CHE 802f

VE 6300.3

VE 6350

VN 6050

WD 2600

CHE802f

VE6300.3

VE6350

VN6050

KolbDieter M

LipkowskiJacek

RossPhil N

541.3

541.37

Bioelectric energy sources

Bioelectrochemistry

Energy metabolism -- Physiology

Human Anatomy & Physiology

Health & Biological Sciences

Animal Biochemistry

Inglese

Description based upon print version of record.

Advances in Electrochemical Science and Engineering, Volume 13; Contents; Preface; List of Contributors; 1: Amperometric Biosensors; 1.1 Introduction; 1.1.1 Definition of the Term "Biosensor"; 1.1.2 Milestones and Achievements Relevant to Biosensor Research and

Development; 1.1.3 "First-Generation" Biosensors; 1.1.4 "Second-Generation" Biosensors; 1.1.5 "Third-Generation" Biosensors; 1.1.6 Reagentless Biosensor Architectures; 1.1.7 Parameters with a Major Impact on Overall Biosensor Response; 1.1.8 Application Areas of Biosensors; 1.2 Criteria for "Good" Biosensor Research

1.3 Defining a Standard for Characterizing Biosensor Performances1.4 Success Stories in Biosensor Research; 1.4.1 Direct ET Employed for Biosensors and Biofuel Cells; 1.4.2 Direct ET with Glucose Oxidase; 1.4.3 Mediated ET Employed for Biosensors and Biofuel Cells; 1.4.4 Nanomaterials and Biosensors; 1.4.4.1 Modification of Macroscopic Transducers with Nanomaterials; 1.4.4.2 Nanometric Transducers; 1.4.4.3 Modification of Biomolecules with Nanomaterials; 1.4.5 Implanted Biosensors for Medical Research and Health Check Applications

1.4.6 Nucleic Acid-Based Biosensors: Nucleic Acid Chips, Arrays, and Microarrays1.4.7 Immunosensors; 1.4.7.1 Labeled Approaches; 1.4.7.2 Nonlabeled Approaches; 1.5 Conclusion; Acknowledgments; Abbreviations; Glossary; References; 2: Imaging of Single Biomolecules by Scanning Tunneling Microscopy; 2.1 Introduction; 2.2 Interfacial Electron Transfer in Molecular and Protein Film Voltammetry; 2.2.1Theoretical Notions of Interfacial Chemical and Bioelectrochemical Electron Transfer; 2.2.2 Nuclear Reorganization Free Energy

2.2.3 Electronic Tunneling Factor in Long-Range Interfacial (Bio)electrochemical Electron Transfer2.3 Theoretical Notions in Bioelectrochemistry towards the Single-Molecule Level; 2.3.1 Biomolecules in Nanoscale Electrochemical Environment; 2.3.2 Theoretical Frameworks and Interfacial Electron Transfer Phenomena; 2.3.2.1 Redox (Bio)molecules in Electrochemical STM and Other Nanogap Configurations; 2.3.2.2 New Interfacial (Bio)electrochemical Electron Transfer Phenomena

2.4 In Situ Imaging of Bio-related Molecules and Linker Molecules for Protein Voltammetry with Single-Molecule and Sub-molecular Resolution2.4.1 Imaging of Nucleobases and Electronic Conductivity of Short Oligonucleotides; 2.4.2 Functionalized Alkanethiols and the Amino Acids Cysteine and Homocysteine; 2.4.2.1 Functionalized Alkanethiols as Linkers in Metalloprotein Film Voltammetry; 2.4.2.2 In Situ STM of Cysteine and Homocysteine; 2.4.2.3 Theoretical Computations and STM Image Simulations; 2.4.3 Single-Molecule Imaging of Bio-related Small Redox Molecules

2.5 Imaging of Intermediate-Size Biological Structures: Lipid Membranes and Insulin

Bioelectrochemistry is a fast growing field at the interface between electrochemistry and other sciences such as biochemistry, analytical chemistry and medicinal chemistry. In the recent years, the methods and the understanding of the fundamentals have seen significant progress, which has led to rapid development in the field.Here, the expert editors have carefully selected contributions to best reflect the latest developments in this hot and rapidly growing interdisciplinary topic. The resulting excellent and timely overview of this multifaceted field covers recent methodological adva