Biomass Derived Carbon Materials For Energy And Environmental Applications

Biomass-Derived Carbon Materials for Energy and Environmental Applications provides a clear view of biomass availability and sustainability and the different design principles and synthetic protocols available for their conversion into various types of carbonaceous materials for energy and environmental applications. Carbon materials derived from biomass have broad application prospects in the field of energy storage and conversion and environmental protection because of their modified porous structure, effective surface area, surface functionalities and introduction of heteroatoms The book is divided into three parts which thoroughly describe the availability of different types of biomass materials, their sustainability, different.

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.

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.

Agricultural and food industry waste materials have been an important feedstock for activated carbon production for many years. In the development of cleaner energy production and utilization processes, new advanced carbon materials with enhanced properties have been studied. Techniques to tailor pore structure and surface chemistry can produce better carbon materials for energy storage, electrode materials, and selective adsorption of pollutants. This book surveys available waste materials and processes for carbon production and then reviews the recent developments in the use of carbon materials for energy storage, as catalyst supports, and for environmental applications.

Char and Carbon Materials Derived from Biomass: Production, Characterization and Applications provides an overview of biomass char production methods (pyrolysis, hydrothermal carbonization, etc.), along with the characterization techniques typically used (Scanning Electronic Microscopy, X-Ray Fluorescence, Nitrogen adsorption, etc.) In addition, the book includes a discussion of the various properties of biomass chars and their suitable recovery processes, concluding with a demonstration of applications. As biomass can be converted to energy, biofuels and bioproducts via thermochemical conversion processes, such as combustion, pyrolysis and gasification, this book is ideal for professionals in energy production and storage fields, as well as professionals in waste treatment, gas treatment, and more. Provides a discussion of sources of biomass feedstocks, such as agricultural, woody plants and food processing residue Discusses the various production processes of biomass chars, including pyrolysis and hydrothermal carbonization Explores various applications of biomass chars within different industries, including energy and agronomy

Carbon-based materials, such as chars, activated carbons, one-dimensional carbon nanotubes, and two-dimensional graphene nanosheets, have shown great potential for a wide variety of applications. These materials can be synthesized from any precursor with a high proportion of carbon in its composition. Although fossil fuels have been extensively used as precursors, their unstable cost and supply have led to the synthesis of carbon materials from biomass. Biomass covers all forms of organic materials, including plants both living and in waste form and animal waste products. It appears to be a renewable resource because it yields value-added products prepared using environmentally friendly processes. The applications of these biomass-derived carbon materials include electronic, electromagnetic, electrochemical, environmental and biomedical applications. Thus, novel carbon materials from biomass are a subject of intense research, with strong relevance to both science and technology. The main aim of this reprint is to present the most relevant and recent insights in the field of the synthesis of biomass-derived carbons for sustainable applications, including adsorption, catalysis and/or energy storage applications.

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.

The book presents an in-depth review of biomass-derived materials for energy storage technologies. Biomass is the most renewable and abundant carbon resource and has great potential for sustainable energy production. Topics covered include: Bone Char as a Support Material to Build a Microbial Biocapacitor; Biomass Derived Composites; Lignin- and Bamboo Derived Materials, Cellulose-Derived Electrodes; Water Splitting, Fuel cells, and Supercapacitor Technologies. 465 References. Keywords: Bamboo Stick, Biochar, Bioelectrodes, Biofilm, Biomass, Bone Char, Carbon Nanofiber, Cellulose-Derived Electrodes, Fuel Cells, Green Energy, Microbial Biocapacitor, Biomass Derived Composites, High-Frequency Supercapacitors, Lignin Materials, Bamboo Materials, Lithium-Ion Batteries, Lithium-Sulfur Batteries, Natural Precursors, Porous Carbon, Supercapacitor Technology, Water Splitting.