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Polyelectrolytes --- Polyzwitterions --- Addition polymerization --- Polyelectrolytes --- Polyzwitterions
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Storage batteries --- Polyelectrolytes --- Electronic polymers --- Polymers --- Materials --- Electric properties
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Thin films, Multilayered. --- Nanostructured materials. --- Polyelectrolytes. --- Langmuir-Blodgett, Couches de --- Nanomatériaux --- Polyélectrolytes --- Nanostructure materials --- Polyelectrolytes --- Thin films, Multilayered --- Langmuir-Blodgett films --- Multilayered thin films --- Polymer electrolytes --- Polymeric electrolytes --- Electrolytes --- Polymers --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Nanomatériaux --- Polyélectrolytes --- Nanostructured materials
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Polymers --- Ions --- Polymères --- Congresses --- Congrès --- Polymères --- Congrès --- Electrochemistry. --- DNA. --- Adsorption --- DNA --- Biopolymers --- Conformation --- Interface --- Ion transport (biological) --- Ions in liquids --- Membranes --- Polyelectrolytes --- Viscoelasticity
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Roland G. Winkler and Andrey G. Cherstvy Strong and Weak Polyelectrolyte Adsorption onto Oppositely Charged Curved Surfaces Nikolai I. Lebovka Aggregation of Charged Colloidal Particles Cornelia Cramer and Monika Schönhoff Ion Conduction in Solid Polyelectrolyte Complex Materials Saskia Lindhoud and Martien A. Cohen Stuart Relaxation phenomena during polyelectrolyte complex formation Dmitry V. Pergushov, Alexey A. Zezin, Alexander B. Zezin, and Axel H.E. Müller Advanced Functional Structures Based on Interpolyelectrolyte Complexes.
Chemistry. --- Polymers. --- Biochemistry. --- Polymer Sciences. --- Electrochemistry. --- Biochemistry, general. --- Chemistry --- Physical Sciences & Mathematics --- Organic Chemistry --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Polymere --- Polymeride --- Polymers and polymerization --- Composition --- Biology --- Medical sciences --- Macromolecules --- Physical sciences --- Chemistry, Physical and theoretical --- Polyelectrolytes. --- Polymer electrolytes --- Polymeric electrolytes --- Electrolytes --- Polymers --- Polymers .
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Caroline Ankerfors and Lars Wagberg Polyelectrolyte Complexes for Tailoring of Wood Fibre Surfaces Gudrun Petzold and Simona Schwarz Polyelectrolyte Complexes in Flocculation Applications Said Bouhallab and Thomas Croguennec Spontaneous Assembly and Induced Aggregation of Food Proteins Annabelle Bertin Polyelectrolyte Complexes of DNA and Polycations as Gene Delivery Vectors M. Müller Sizing, Shaping and Pharmaceutical Applications of Polyelectrolyte Complex Nanoparticles.
Chemistry. --- Polymers. --- Biochemistry. --- Polymer Sciences. --- Electrochemistry. --- Biochemistry, general. --- Chemistry --- Physical Sciences & Mathematics --- Organic Chemistry --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Polymere --- Polymeride --- Polymers and polymerization --- Composition --- Polyelectrolytes. --- Polymer electrolytes --- Polymeric electrolytes --- Electrolytes --- Polymers --- Biology --- Medical sciences --- Macromolecules --- Physical sciences --- Polymers . --- Chemistry, Physical and theoretical
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This brief is the result of the research the author has performed in recent years covering electrical fluctuations in numerous systems, including molecular electrical fluctuations, ionic fluctuations, ionic dielectric relaxation, spherical and cylindrical polyelectrolytes, ionic polarizability in polyelectrolytes, pH fluctuation in vesicles and electrical fluctuations in proteins. The importance of estimating electrical fluctuations resides in its richness of information and omnipresence in biological systems. In order to understand how these systems work it is vital to know the magnitude of their electrical fluctuations. Electromagnetic fluctuations are the origin of London (Van der Waals) forces between molecules, and Lifshitz forces between macro objects. Protonic fluctuations are the origin of Kirkwood and Shumaker forces between molecules and pH fluctuations. Furthermore, protonic fluctuations could be the cause of the dielectric increment of proteins in solution. Local electrical fluctuations can influence chemical reactions and so on. This book addresses the interplay of these pervasive phenomena. .
Nanoscale science. --- Biological physics. --- Nanoscale Science and Technology. --- Chemistry. --- Electrochemistry. --- Nanoscience. --- Nanostructures. --- Biophysics. --- Nanotechnology. --- Biophysics and Biological Physics. --- Polyelectrolytes. --- Polymer electrolytes --- Polymeric electrolytes --- Electrolytes --- Polymers --- Biological and Medical Physics, Biophysics. --- Molecular technology --- Nanoscale technology --- High technology --- Physical sciences --- Nanoscience --- Physics --- Nano science --- Nanoscale science --- Nanosciences --- Science --- Biological physics --- Biology --- Medical sciences --- Chemistry, Physical and theoretical --- Nanophysics.
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