Titlebook: Supramolecular Polymer Networks and Gels; Sebastian Seiffert Book 2015 Springer International Publishing Switzerland 2015 Cellulose Gels.P

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书目名称Supramolecular Polymer Networks and Gels影响因子(影响力)




书目名称Supramolecular Polymer Networks and Gels影响因子(影响力)学科排名




书目名称Supramolecular Polymer Networks and Gels网络公开度




书目名称Supramolecular Polymer Networks and Gels网络公开度学科排名




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书目名称Supramolecular Polymer Networks and Gels被引频次学科排名




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书目名称Supramolecular Polymer Networks and Gels年度引用学科排名




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书目名称Supramolecular Polymer Networks and Gels读者反馈学科排名

conifer

Hydrogen Bonding in Supramolecular Polymer Networks: Glasses, Melts, and Elastomers,gregation or phase segregation of binding groups influence the supramolecular structure, phase behavior, and dynamics of these materials. This understanding is crucial to advance emerging technologies such as thermoplastic elastomers, shape-memory elastomers, and self-healing materials.

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Supramolecular Nanofibrillar Polymer Hydrogels,cuss the hierarchical assembly of nanofibrillar hydrogels, give examples of hydrogels formed by the most important groups of polymers, discuss structure–property relationships of these nanofibrillar hydrogels, and review their current and potential applications in the fields of bioengineering, cell biology, medicine, and cosmetics.

OPINE

Supramolecular Polymer Networks: Preparation, Properties, and Potential,ition metal complexation, hydrophobic interaction, ionic attraction, or π–π stacking. These networks form an extraordinarily useful class of soft, stimuli-sensitive materials. Although they assemble to strong materials under favorable conditions, they are easily disassembled under other conditions.

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Hydrogen Bonding in Supramolecular Polymer Networks: Glasses, Melts, and Elastomers,s, structure-forming ability, and elasticity. Supramolecular polymers and networks containing reversibly associating groups are now synthetically accessible and offer diverse properties that are highly sensitive to temperature and other stimuli. This review examines how dynamic hydrogen bonding betw

neuron

Self-Healing Hydrogels Formed via Hydrophobic Interactions,ss, and high water sorption capacity make hydrogels extraordinary materials. Although synthetic hydrogels resemble biological tissue, they generally exhibit poor mechanical performance, which limits their use in stress-bearing applications. Hence, synthetic hydrogels that combine good mechanical pro

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,Donor–Acceptor π–π Stacking Interactions: From Small Molecule Complexes to Healable Supramolecular -links in supramolecular polymer networks. The chapter examines notable examples of these highly specific and directional interactions and illustrates how they can be utilised to reliably produce functional supramolecular, self-assembled systems. Knowledge gained from these fundamental studies has e

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Neuralgia

Cellulose Gels and Microgels: Synthesis, Service, and Supramolecular Interactions,ns, in which native cellulose, regenerated cellulose, cellulose derivatives, and cellulose graft copolymers are used as the building blocks. Supramolecular interactions such as hydrophobic interactions, hydrogen bonding, and ionic interactions act as a physical means of cross-linking within these ce

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