Advances in Materials for Alternate Energy, Batteries, Thermal Energy Storage, and Material Synthesis

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This issue of High-Tech Materials profiles recent advances in material science that define new possibilities in solar, thermal, and lithium-ion battery storage. Focus is also on new composites, which aim to improve high temperature performance of materials used in fusion reactors. Also profiled is a new ion substitution process that can potentially transform the way functional materials are synthesized and fine-tuned for applications in solid ion batteries and electronic devices.The High-Tech Materials TechVision Opportunity Engine (TOE) provides intelligence on technologies, products, processes, applications, and strategic insights on various materials across industries. Some material technologies include ligh

Table of Contents

Advances in Materials for Alternate Energy, Batteries, Thermal Energy Storage, and Material SynthesisRecent Innovations in Materials DevelopmentSynthetic Light Harvesting Material for Solar-powered ApplicationsHigh-nickel Cathode for Durable Cost-effective Li-ion BatteriesPhase Changing Hybrid Composite as Thermal Energy Storage ModuleNanocomposite Material for Fusion ReactorsProton Driven Ion Introduction (PDII) for Functional Material SynthesisKey ContactsIndustry Contacts

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