{ "item_title" : "From Paper to Power", "item_author" : [" Francesco Tesla "], "item_description" : "From Paper to Power is a deep, practical, and research-driven book that explores a bold idea: using cellulose-the most abundant biopolymer on Earth-as a multifunctional platform for lithium-ion battery electrodes, separators, and electrolyte architectures, while relying on water-based processing and paper-making inspired manufacturing.Lithium-ion batteries are powering the modern world: electric vehicles, smartphones, drones, grid storage, robotics, and next-generation wearable devices.From Paper to Power tackles these issues head-on by demonstrating how cellulose-based architectures can serve as both: binderstructural scaffoldseparator frameworkreinforcement phaseYou will understand cellulose as a battery materialYou will learn how cellulose works not just as a passive additive, but as an active design lever that influences: why CMC, MFC, CNF, have differently in electrodes and separatorsYou will learn water-based electrode manufacturingThis is critical knowledge for anyone trying to scale beyond lab-only electrode recipes.You will learn self-standing electrode designSelf-standing electrodes eliminate the need for heavy metal foils and open the door to flexible architectures.You will master spray-coated electrode processingOne of the most industrially relevant contributions of the book is the implementation of spray coating of water-based slurries on a pilot paper machineThis section is extremely valuable for readers interested in high-throughput manufacturing, scale-up, and industrial transfer of sustainable electrode technologies.You will learn how to engineer paper separatorsIf you work on separators, membranes, or solid-state architectures, this section alone is worth the book. You will learn gel polymer electrolyte reinforcement with MFCMoving from liquid electrolytes to gel polymer electrolytes is one of the strongest safety and stability upgrades in lithium-based cellsYou will learn practical electrochemical testing methodsThe cellulose-based approach unlocks multiple advantages: Sustainability advantagesManufacturing advantagesMechanical advantagesElectrochemical advantagesThe book follows a structured progression: State of the artMaterials and methodsFiltration-based paper electrodesSpray-coated pilot-scale electrodesFull paper-based cell assemblySeparator engineeringGel polymer electrolyte reinforcementConductivity improvement through carbonization conceptsRoadmaps and future targetsThis makes it extremely useful as a reference blueprint for designing your own research project. A New Direction for Energy StorageIt is a book about electrochemical energy storage, but also about materials innovation, manufacturing transformation, sustainable engineering.From Paper to Power delivers the methods, insights, and experimental logic needed to explore one of the most exciting frontiers in sustainable lithium-ion batteries where paper becomes power, and green manufacturing meets real electrochemical performance.Add it to your library today-and build the next generation of sustainable batteries.", "item_img_path" : "https://covers3.booksamillion.com/covers/bam/9/79/824/453/9798244539318_b.jpg", "price_data" : { "retail_price" : "39.99", "online_price" : "39.99", "our_price" : "39.99", "club_price" : "39.99", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : "" } }

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