Download Free Fabrication And Applications Of Biomass Derived Porous Carbon Book in PDF and EPUB Free Download. You can read online Fabrication And Applications Of Biomass Derived Porous Carbon and write the review.

This book systematically introduces the fundamentals, preparation technology, state-of-the-art applications, and future development of biomass-derived porous carbon materials. The authors provide a theoretical foundation that demonstrates the microstructure and physicochemical properties of carbon materials. The fabrication methods, including physical activation methods, chemical activation methods, and advances in other new fabrication methods are explicitly described. The book also identifies many potential applications of biomass (especially biomass-derived porous carbon materials), such as supercapacitors, removal of organic pollutants from water, CO2 capture, photocatalytic application, and farmland restoration. The book will be a valuable resource for researchers, scientists, and engineers working in the field of biomass-derived porous carbon materials, carbon resource development, and environmental protection.
Bio-derived Carbon Nanostructures: Fundamentals, Synthesis and Applications explores the entire journey, from selecting the right source materials to crafting them into precisely engineered carbon nanostructures with a purpose.Opening with an exploration of raw materials and their structural intricacies, offering readers a profound insight into the transformation of bio-based resources into highly functional carbon nanostructures. These remarkable materials find applications that span energy, environmental solutions, catalysis, and innovative additives. Unveiling the latest technological advancements, this book delves into the exciting realm of emerging applications and the challenges of scaling up these technologies for widespread use. These novel materials originate from nature, promising a sustainable future.Ideal for students, researchers and those in industry focusing on materials science and biomass utilization, and chemical engineers, this book is the key to unlocking the potential of novel carbon-based nanomaterials for a sustainable tomorrow. - Presents the art of crafting bio-derived carbon nanostructures, their applications, and scale up issues - Unveils the secrets behind various fabrication techniques and provides background for manufacturing. - Embarks on a journey through the fundamentals of process-property relationships and cutting-edge characterization methods - Explores and compares diverse preparation and characterization techniques, unveiling their remarkable outcomes
This book discusses the recent advances in the wastes recycling technologies to provide low-cost and alternative ways for nanomaterials production. It shows how carbon nanomaterials can be synthesized from different waste sources such as banana fibers, argan (Argania spinosa) seed shells, corn grains, camellia oleifera shell, sugar cane bagasse, oil palm (empty fruit bunches and leaves) and palm kernel shells. Several nanostructured metal oxides (MnO2, Co3O4,....) can be synthesized via recycling of spent batteries. The recovered nanomaterials can be applied in many applications including: Energy (supercapacitors, solar cells, etc.) water treatments (heavy metal ions and dyes removal) and other applications. Spent battery and agriculture waste are rich precursors for metals and carbon, respectively. The book also explores the various recycling techniques, agriculture waste recycling, batteries recycling, and different applications of the recycled materials.
This book explores the various forms of activated carbon and their environmental, medical, and industrial applications.
Carbon materials form pores ranging in size and morphology, from micropores of less than 1nm, to macropores of more than 50nm, and from channel-like spaces with homogenous diameters in carbon nanotubes, to round spaces in various fullerene cages, including irregularly-shaped pores in polycrystalline carbon materials. The large quantity and rapid rate of absorption of various molecules made possible by these attributes of carbon materials are now used in the storage of foreign atoms and ions for energy storage, conversion and adsorption, and for environmental remediation. Porous Carbons: Syntheses and Applications focuses on the fabrication and application of porous carbons. It considers fabrication at three scales: micropores, mesopores, and macropores. Carbon foams, sponges, and 3D-structured carbons are detailed. The title presents applications in four key areas: energy storage, energy conversion, energy adsorption, including batteries, supercapacitors, and fuel cells and environmental remediation, emphasizing the importance of pore structures at the three scales, and the diffusion and storage of various ions and molecules. The book presents a short history of each technique and material, and assesses advantages and disadvantages. This focused book provides researchers with a comprehensive understanding of both pioneering and current synthesis techniques for porous carbons, and their modern applications. - Presents modern porous carbon synthesis techniques and modern applications of porous carbons - Presents current research on porous carbons in energy storage, conversion and adsorption, and in environmental remediation - Provides a history and assessment of both pioneering and current cutting-edge synthesis techniques and materials - Covers a significant range of precursor materials, preparation techniques, and characteristics - Considers the future development of porous carbons and their various potential applications
Sodium-Ion Capacitors Enables readers to quickly understand core issues and field development of sodium-ion capacitors Sodium-Ion Capacitors summarizes and outlines the dynamics and development of sodium-ion capacitors, covering key aspects of the technology including background, classification and configuration, key technologies, and more, allowing readers to gain an understanding of sodium-ion capacitors from the perspective of both industrial technology and electrochemistry. Sodium-Ion Capacitors includes information on: EDLC-type mechanism of SCs and battery-type mechanism of SIBs, definition and types of pseudocapacitance, and energy storage mechanism of pseudocapacitors Cathode materials for sodium-ion capacitors, covering EDLC cathode materials, carbon nanotubes, reduced graphene oxide, and hollow carbon microspheres Flexible battery-type anode and capacitive cathode SICs cell configurations, including flexible electrodes based on carbon nanofiber, graphene substrates, carbon cloth, MXenes, and metal foil Pre-sodiation technologies, covering operation with Li metal, usage of Li-based alternatives, and the sacrificial additives method Summarizing the development, directions, potential, and core issues of sodium-ion capacitors, Sodium-Ion Capacitors is an essential resource on the subject for materials scientists, solid-state chemists and electrochemists, and semiconductor physicists in both industry and academia.
Materials for Supercapacitor Applications provides a snapshot of the present status of this rapidly growing field. It covers motivations, innovations, ongoing breakthroughs in research and development, innovative materials, impacts, and perspectives, as well as the challenges and technical barriers to identifying an ideal material for practical applications. This comprehensive reference by electro-chemists explains concepts in materials selection and their unique applications based on their electro-chemical properties. Chemists, chemical and electrical engineers, material scientists, and research scholars and students interested in energy will benefit from this overview of many important reference points in understanding the materials used in supercapacitors. - Provides an overview of the formulation for new materials and how to characterize them for supercapacitor applications - Describes all the information on the available materials for supercapacitor applications - Outlines potential material characterization methods - Discusses perspectives and future directions of the field
Explores the sustainable production of carbon materials and their applications Of increasing interest to practitioners and researchers in a variety of areas, biomass-derived carbon materials can be easily produced and possess the large surface areas and porosities that enable many applications in materials science, biochemistry, chemistry, and energy research. In Biomass-Derived Carbon Materials: Production and Applications, a team of accomplished researchers delivers a thorough and up-to-date exploration of the preparation and activation processes of biomass-derived carbon materials, the fabrication of composites, and assorted and multidisciplinary applications of the technology. The book also covers future opportunities for research and application. Introductory chapters provide information about the production, functionalization, and characterization of biomass-derived carbon materials, while the latter parts of this edited volume discuss the applications of biomass-derived carbon materials such as catalysis, sensors, microbicidal activity, toxic chemicals removal, drug delivery, and energy conversion and storage applications. The book also includes: A thorough introduction to the production of biomass-derived carbon materials, as well as their characterization Comprehensive explorations of biomass-derived carbon-based materials for microbicidal applications and carbon-based nanomaterials prepared from biomass for catalysis Practical discussions of biomass-derived carbon quantum dots for fluorescence sensors and mesoporous carbon nanomaterials for drug delivery and imaging applications In-depth examinations of biomass-derived carbon as electrode materials for batteries and porous carbon synthesized from biomass for fuel cells Ideal for materials scientists as well as industrial chemists and biochemists, Biomass-Derived Carbon Materials: Production and Applications also belongs in the libraries of electrochemists and sensor developers.
High-Performance Materials from Bio-based Feedstocks The latest advancements in the production, properties, and performance of bio-based feedstock materials In High-Performance Materials from Bio-based Feedstocks, an accomplished team of researchers delivers a comprehensive exploration of recent developments in the research, manufacture, and application of advanced materials from bio-based feedstocks. With coverage of bio-based polymers, the inorganic components of biomass, and the conversion of biomass to advanced materials, the book illustrates the research and commercial potential of new technologies in the area. Real-life applications in areas as diverse as medicine, construction, synthesis, energy storage, agriculture, packaging, and food are discussed in the context of the structural properties of the materials used. The authors offer deep insights into materials production, properties, and performance. Perfect for chemists, environmental scientists, engineers, and materials scientists, High-Performance Materials from Bio-based Feedstocks will also earn a place in the libraries of academics, industrial researchers, and graduate students with an interest in biomass conversion, green chemistry, and sustainability. A thorough introduction to the latest developments in advanced bio-based feedstock materials research Comprehensive explorations of a vast range of real-world applications, from tissue scaffolds and drug delivery to batteries, sorbents, and controlled release fertilizers Practical discussions of the organic and inorganic components of biomass and the conversion of biomass to advanced materials In-depth examinations of the structural properties of commercially and academically significant biomass materials For more information on the Wiley Series in Renewable Resources, visit www.wiley.com/go/rrs