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Coordination polymers. --- Chelate polymers --- Chelates --- Polymers
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The assembly of organic ligands and metal centres yields coordination polymers, many of which find applications in conductivity, catalysis, magnetism, gas sorption, biological sensing and luminescence. The structure and topology of coordination polymers may be manipulated by changing the reaction conditions, leading to a large variety of structurally and topologically unique products. However, controlling and predicting the final outcome of the self-assembly procedure remains one of the major challenges in the field. The final products are often strongly influenced by factors such as the behaviour of a functional group in a molecule, the influence of the crystallization conditions and the various conformations of the components within the crystal. This Special Issue aims to cover a broad range of subjects in coordination polymer chemistry, which are important to the continued growth of the field, showcase current developments and realise its full potential in applications to address major societal challenges. Therefore, we invite you to contribute a research article to this Special Issue and provide a clear snapshot of your research in this field.
Coordination polymers. --- Chelate polymers --- Chelates --- Polymers
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Coordination compounds. --- Biochemistry. --- Edta. --- Chelate effect. --- Metal ion.
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DNA. --- DNA --- Purification --- Purification --- Chromatography --- Chromatography --- plasmids --- plasmids --- Yeasts --- Yeasts --- Molecular biology --- Molecular biology --- Chelate-metal affinite --- Chelate-metal affinite
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Polyphosphazenes are a unique family of inorganic polymers with an unparalleled broad spectrum. of properties. Furthermore, these properties can be easily fine-tuned by organic side-group substituents to give poly(organo)phosphazenes with precisely desired characteristics making them valuable tools to prepare multifunctional, advanced materials for biomedical applications. Bioerodible poly(organo)phosphazenes are of particular interest and with suitable organic substituents their rate of degradation can be tailored to give materials ranging from highly biostable to rapidly hydrolysable, with p
Polyphosphazenes. --- Coordination polymers --- Chelate polymers --- Chelates --- Polymers --- Phosphazene polymers --- Polyorganophosphazenes --- Phosphazo compounds --- Synthesis.
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Inorganic polymers. --- Silicone chemistry. --- Metal chelate polymers. --- Heteroatomic structures. --- Homoatomic structures. --- Resins. --- Fluids. --- Rubbers.
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Ethylenediaminetetraacetic acid. --- Ethylenediaminetetraacetic acid --- Chelates. --- Chelate compounds --- Coordination compounds --- Diaminoethanetetraacetic acid --- EDTA (Ethylenediaminetetraacetic acid) --- Ethylenedinitrilotetraacetic acid --- Acetic acid --- Chelates --- Environmental aspects.
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661.83 <063> --- Alkali metals --- -Chelates --- -Metal-ammonia compounds --- -Chelate compounds --- Coordination compounds --- Light metals --- Alkali metal compounds--Congressen --- Congresses --- Chelates --- Metal-ammonia compounds --- Congresses. --- -Alkali metal compounds--Congressen --- 661.83 <063> Alkali metal compounds--Congressen --- Chelate compounds --- Organometallic compounds. --- Amines, compounds --- Catalysis --- Metallation --- Physical property --- Polymerization catalysts
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Chemistry of complexes --- fysicochemie --- Metals and their compounds --- Chelates --- Chélates --- 631.417.8 --- 661.78 --- Chelate compounds --- Coordination compounds --- Organometallic compounds. Chelates --- Organometallic compounds --- 661.78 Organometallic compounds --- 631.417.8 Organometallic compounds. Chelates --- Chélates --- Chelates. --- Metals.
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This book deals with the chemistry of polymeric metal chelates. The main results and the production and chemical structure of polymers with chelate units as well as the specificity of metal complex binding of different structure are presented here. This book also reveals the transformations which components undergo in the course of chelation. Special attention is paid not only to synthetic but also to natural (including living) systems. The usage of polymeric metal chelates and their development are exained. The related research was performed for chelates with chain structure. This book is useful to researchers being activ in synthesis and design of macromolecular metal chelates.
Chelates. --- Polymers. --- Materials. --- Surfaces (Physics). --- Chemistry, Organic. --- Polymer Sciences. --- Metallic Materials. --- Characterization and Evaluation of Materials. --- Organic Chemistry. --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Chelate compounds --- Coordination compounds --- Organic chemistry --- Chemistry --- Physics --- Surface chemistry --- Surfaces (Technology) --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Materials --- Polymers . --- Metals. --- Materials science. --- Organic chemistry. --- Material science --- Physical sciences --- Metallic elements --- Chemical elements --- Ores --- Metallurgy
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