Inhaltsangabep-Conjugated Star-Shaped Oligomers in Organic Electronics and Photonics.- Affinity Chromatographic Materials.- Aging Behavior of Elastomers.- Alkyd Resin Synthesis.- Alumina.- Aluminum Nitride.- Anionic Addition Polymerization (Fundamental).- Anionic Ring-Opening Polymerization.- Antenna Effect in Dendrimers.- Application of CL/P Nanocomposites.- Applications of Block Copolymers in Thin Films: Nanopatterning.- Arborescent Graft Polymers.- As-, Sb-, Bi-Containing Polymers.- Asymmetric Polymerization.- Bio-acrylates.- Bioactive Layer-By-Layer Films to Stimulate Cell Growth and Differentiation.- Bioadhesives: Chemistry and Mode of Operation.- Bio-Based Fillers.- Bio-based Hydrocarbon Polymers.- Biobased Polymers.- Biocomposites.- Biodegradability.- Biodegradable Materials.- Biodegradable Polymers.- Biodegradation of Polymers (Bioassimilation, Biomineralization, Biodisintegration, Compost), Overview.- Biohybrid Materials.- Bioimaging Materials.- Bioinorganic Hybrid Materials.- Biomedical Elastomer.- Biomembrane as a Soft Matter.- Biopolyesters.- Biorefining (Biomass Refining).- Biosensing Materials.- Bioseparation.- Biosynthesis of Polymers.- Birefringence of Polymer.- Block Copolymer Synthesis.- Block Copolymers.- Blood-Compatible Materials.- BN Nanoceramics.- Borazine Polymers.- "Brick-and-Mortar" Composites of Platelet-Reinforced Polymers.- Calixarenes-Based Supramolecular Polymers.- Carbon Black Reinforced Elastomers.- Carbon Dioxide-Based Polymers.- Carbon Fibers.- Carbon Nanotubes Rubber Composites.- Carborane Polymers.- Cationic Addition Polymerization (Fundamental).- Cationic Ring-Opening Polymerization.- Cellulose.- Cellulose Acetate.- Chain-Growth Condensation Polymerization.- Chain-Growth Copolymerization (Overview).- Charge-Transporting Polymers.- Chelating Resins.- Chemical Sensor.- Chitin and Chitosan.- Chondroitin Sulfate.-Clay Nanohybrid Materials.- Computer Simulation of Block Copolymers.- Conducting Polymers.- Conjugated Dendrimers.- Conjugated Polyelectrolytes.- Conjugated Polymer Synthesis.- Co

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Shiro Kobayashi, Distinguished Professor at the R&D Center for Bio-based Materials at the Kyoto Institute of Technology and Emeritus at the Kyoto University is a series editor of Springer's book series Advances in Polymer Science. As an outstanding contributor to research in polymer chemistry Kobayashi has received several honors including the medal with Purple Ribbon from the Emperor of Japan. His current research focuses on new methodologies in polymer synthesis with a special focus on enzymatic polymerization and identifying new polymer materials.  Kobayashi received his Ph.D from Kyoto University and did postdoctoral work with Nobel laureate George Olah. Klaus Müllen is professor and director of the Max-Planck Institute of Polymer Reseasrch in Mainz, Germany. His Ph.D. degree was granted by the University of Basel, Switzerland, in 1972 where he undertook research with Professor F. Gerson on twisted pi-systems and EPR spectroscopic properties of the corresponding radical anions. In 1972 he joined the group of Professor J.F.M. Oth at the Swiss Federal Institute of Technology in Zürich where he worked in the field of dynamic NMR spectroscopy and electrochemistry. He received his habilitation from the ETH Zurich in 1977 and was appointed Privatdozent. In 1979 he became a Professor in the Department of Organic Chemistry, University of Cologne, and accepted an offer of a chair in Organic Chemistry at the University of Mainz in 1983. He received a call to the University of Göttingen in 1988. Klaus Müllen is Associate Editor of the Journal of the American Chemical Society and Editor for Polymer Bulletin. He received many awards and positions.