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200 00$aChemically modified electrodes$b[electronic resource] /$fedited by Richard C. Alkire, Dieter M. Kolb, Jacek Lipkowski, and Philip N. Ross
210   $aWeinheim $cWiley-VCH$dc2009
215   $a1 online resource (281 p.)
225 1 $aAdvances in electrochemical science and engineering ;$v11
300   $aDescription based upon print version of record.
311   $a3-527-31420-2 
320   $aIncludes bibliographical references and index.
327   $aAdvances in Electrochemical Science and Engineering; Contents; Preface; List of Contributors; 1 Nanostructured Electrodes with Unique Properties for Biological and Other Applications; 1.1 Introduction; 1.2 High Surface Area Electrodes; 1.2.1 Attachment of Nanoparticles onto Electrodes; 1.2.2 Templating using Membranes; 1.2.3 Templating using Lyotropic Liquid Crystals; 1.2.4 Colloidal Templates; 1.3 Catalytic Properties; 1.4 Exploiting Nanoscale Control to Interface Electrodes with Biomolecules; 1.4.1 Plugging Nanomaterials into Proteins - Nanoparticles
327   $a1.4.2 Plugging Nanomaterials into Proteins - Carbon Nanotubes1.4.3 Plugging Nanomaterials into Proteins - Molecular Wires; 1.4.3.1 Nanostructuring Electrodes to Achieve Intimate Connectivity with Biomolecules; 1.4.3.2 Nanostructuring Electrodes using Rigid Molecules; 1.4.3.3 The use of Molecular Wires in Electrochemistry such that Long-Distance Electron Transfer can be Exploited for a Variety of Applications; 1.5 Switchable Surfaces; 1.5.1 Switching Properties of Monolayer Systems; 1.5.2 Control and Enhancement of Electrochemical Reactions using Magnetic Nanostructures on Electrodes
327   $a1.6 ConclusionsReferences; 2 Electrochemically Active Polyelectrolyte-Modified Electrodes; 2.1 Introduction; 2.1.1 Chemically Modified Electrodes; 2.1.2 Redox Hydrogels; 2.1.3 Redox Polyelectrolyte Monolayers; 2.1.4 Redox Polymer Brushes and Grafted DNA; 2.1.5 Layer-by-Layer Polyelectrolyte Multilayers; 2.2 Structure; 2.2.1 Polyelectrolye Interpenetration; 2.2.2 Compensation of Polyelectrolyte Charges; 2.2.3 Film Inner Structure; 2.2.4 Effect of the Assembly pH; 2.2.5 Theoretical Description; 2.3 Electrochemical Response; 2.3.1 Ideal Response; 2.3.2 Peak Position and Donnan Potential
327   $a2.3.3 Coupling Between the Acid-Base and Redox Equilibria2.3.4 Peak Width; 2.3.5 Nonreversible Electrochemistry: Charge Transport; 2.4 Dynamics of Solvent and Ion Exchange; 2.4.1 Ion Exchange; 2.4.2 Solvent Exchange; 2.4.3 Specific Ionic Effects; 2.4.4 Break-In; 2.5 Molecular Description of Redox Polyelectrolyte-Modified Electrodes; 2.5.1 Formulation of the Molecular Theory; 2.5.2 Comparison with Phenomenological Models, Advantages and Limitations; 2.6 Applications; 2.6.1 Amperometric Enzymatic Electrodes; 2.6.2 Electrochromic Devices; 2.7 Conclusions; References
327   $a3 Electrochemistry on Carbon-Nanotube-Modified Surfaces3.1 Introduction; 3.2 Structure and Properties of Carbon Nanotubes; 3.2.1 Structure and Electronic Properties; 3.2.2 Chemical Properties; 3.2.3 Electrochemical Properties; 3.3 Towards the Design of CNT-Modified Electrodes; 3.3.1 Synthesis of CNTs; 3.3.2 CNT Purification Methods; 3.3.3 Chemical and Biochemical Functionalization; 3.3.3.1 Covalent Modification; 3.3.3.2 Noncovalent Modification; 3.3.3.3 Chemical Modification for CNT Sorting; 3.3.3.4 Chemical Doping, Intercalation and Artificial Defects
327   $a3.3.4 CNT Deposition on Electrode Surfaces
330   $aWith contributions from an international group of expert authors, this book includes the latest trends in tailoring interfacial properties electrochemically. The chapters cover various organic and inorganic compounds, with applications ranging from electrochemistry to nanotechnology and biology.Of interest to physical, surface and electrochemists, materials scientists and physicists.
410  0$aAdvances in electrochemical science and engineering ;$v11.
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200 10$aHeat Shock Proteins and Whole Body Adaptation to Extreme Environments /$fby Michael B. Evgen'ev, David G. Garbuz, Olga G. Zatsepina
205   $a1st ed. 2014.
210  1$aDordrecht :$cSpringer Netherlands :$cImprint: Springer,$d2014.
215   $a1 online resource (233 p.)
300   $aDescription based upon print version of record.
311   $a94-017-9234-8 
320   $aIncludes bibliographical references and index.
327   $aIntroduction -- The discovery of heat shock response system and major groups of heat shock proteins -- Molecular functions of heat shock proteins -- Regulation of heat shock genes expression -- Heat shock proteins and adaptation to variable and extreme environments -- Different trends in the evolution of heat shock genes systems.- The role of mobile elements in the evolution and function of Hsps systems -- Fine tuning of the HSR in various organisms -- Experimental modulation of heat shock response -- Glossary.
330   $aFor many years, the authors have investigated the adaptive role of heat shock proteins (HSPs) in different animals, including the representatives of homothermic and poikilothermic organisms that inhabit regions with contrasting thermal conditions. The investigation of ecological and geographical variation in HSPs expression, begun by Evgen?ev and colleagues is now widespread. This book will summarize the data accumulated in the course of these studies and describe the general molecular mechanisms underlying the adaptation of various organisms to aggressive environments. They also concentrate on different evolutionary trends characteristic for HSP systems in the course of adaptation to fluctuating environmental conditions. In addition, the authors describe the peculiarities in the regulatory regions of heat shock genes necessary for fine tuning of these systems providing the adaptation to adverse conditions. Special emphasis is given to the role of mobile elements in the evolution and functioning of various groups of HSP genes. The book combines the results of field studies and laboratory analysis of stress genes systems.
606   $aMedicine
606   $aLife sciences
606   $aCytology
606   $aProteins
606   $aCell physiology
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606   $aCell Physiology$3https://scigraph.springernature.com/ontologies/product-market-codes/L33010
615  0$aMedicine.
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615  0$aCytology.
615  0$aProteins.
615  0$aCell physiology.
615 14$aBiomedicine, general.
615 24$aLife Sciences, general.
615 24$aCell Biology.
615 24$aProtein Science.
615 24$aCell Physiology.
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