Leticia Myriam Torres Martínez,
Oxana Vasilievna Kharissova,
Boris Ildusovich Kharisov
Springer International Publishing
e druk, 2019
9783319682549
Handbook of Ecomaterials
Specificaties
Gebonden, blz.
|
Engels
Springer International Publishing |
e druk, 2019
ISBN13: 9783319682549
Rubricering
Verwachte levertijd ongeveer 9 werkdagen
Samenvatting
In this handbook, the editors systematically present the maximum possible number of known eco-materials, including ”cyclic” materials; materials for ecology and environmental protection; materials for society and human health; and materials for energy based on two main criteria: their sources and their functions. Eco-materials (also called “environmentally friendly materials” or “environmentally preferable” materials) are materials that enhance, or refrain from damaging, the environment throughout their life cycles.
The chapters are written by global leaders in their fields. The book will cater to the strong and ever-increasing demand for energy, benign materials, and cost efficiency. Eco-materials is arguably one of the most important fields of modern science & technology.
Specificaties
ISBN13:9783319682549
Taal:Engels
Bindwijze:gebonden
Uitgever:Springer International Publishing
Inhoudsopgave
Nanomaterials, Ecomaterials, and Wide Vision of Material Science<p></p>
<p>Environmental Impact Measurements: Tool and Techniques</p>
<p>Green Nanomaterials for Clean Environment</p>
<p>Synthesis Techniques for Preparation of Nanomaterials</p>
<p>Plant Materials for the Synthesis of Nanomaterials: Greener Sources</p>
<p>Processing and Characterization of Bio-Composites</p>
<p>Sustainable Advancement to the Synthesis of Oxadiazoles</p>
<p>Analytical Models for the Permeabilities of Fibrous Ecomaterials</p>
<p>Principles for Evaluations of Healthiness of New Materials</p>
<p>Nanomaterials for Industrial Wastewater Treatment and Water Purification</p>
Nano-Geomaterials for Water Treatment<p></p>
<p>Applications of Nanoparticles in the Treatment of Wastewater</p>
<p>Iron and Iron Oxide-Based Eco-Nanomaterials for Catalysis and Water Remediation</p>
<p>Partial Desalination of Saline Irrigation Water Using [FexOy(OH)z(H2O)m)n+/−]</p>
<p>Porous Materials Obtained from Nonconventional Sources Used in Wastewater Treatment Processes</p>
<p>Remediation of Water Contaminants</p>
<p>New Carbon Nanomaterials for Water Purification from Heavy Metals</p>
<p>Semiconductor Eco-Materials for Water Treatment</p>
<p>Composite Nanofibers for Removing Water Pollutants: Fabrication Techniques</p>
<p>Porous Nanomaterials for Heavy Metal Removal</p>
Degradation of Pollutants Using Advanced Ecomaterials<p></p>
<p>Novel Eco-friendly Mitigation Strategies for Managing Oil Spills and Municipal Waste Dump Site Leachates</p>
<p>Antimicrobial Activity of the Engineered Nanoparticles Used as Coating Agents</p>
<p>Algal Degradation of Organic Pollutants</p>
<p>TiO2/SiO2 Films for Removal of Volatile Organic Compounds (VOCs) from Indoor Air</p>
<p>Degradation of Volatile Organic Compounds with Catalysts-Containing Zeolite and Ordered Mesoporous Silica</p>
<p>CO2 Sequestration: Processes and Methodologies</p>
<p>CO2 Sequestration and Transformation Potential of Agricultural System</p>
<p>Efficient Utilization of Supercritical Carbon Dioxide as Both Reactant and Reaction Medium for Synthetic Applications</p>
Energy Recovery from Solid Waste: Application of Gasification Technology<p></p>
<p>Renewable Energy Sources: Regulations in the Russian Federation</p>
<p>Metal Hydrides for Energy Storage</p>
<p>Metal-Organic Frameworks (MOFs) Composited with Nanomaterials for Next-Generation Supercapacitive Energy Storage Devices</p>
<p>Nanocomposites for Structural and Energy Applications</p>
<p>Efficient, Sustainable, and Clean Energy Storage in Supercapacitors Using Biomass-Derived Carbon Materials</p>
<p>Nanofluids Containing Titanium Dioxide: Thermo-Physical Properties and Energy Saving Applications</p>
<p>Biomass Energy and Bio-solar Hybrid Energy Systems</p>
<p>Thin Film Hydrogen Storages</p>
Hydrogen Storage Alloys: Types and Characteristics<p></p>
<p>Thermoelectric power generation from waste heat</p>
<p>Ecomaterials in Solar Cell Design</p>
<p>Radiation-Resistant Solar Cells: Recent Updates and Future Prospective</p>
<p>Photovoltaic Materials</p>
<p>Advances in Polymer-Based Photovoltaic Cells: Review of Pioneering Materials, Design, and Device Physics</p>
<p>Optimization of Bulk Heterojunction Organic Photovoltaic Devices</p>
<p>Carbon Nanostructured Catalysts as High Efficient Materials for Low Temperature Fuel Cells</p>
<p>Renewable Bio-anodes for Microbial Fuel Cells</p>
<p>Alternative Fuels from Waste Products in Cement Industry</p>
<p>Green Energy Generation from Microbial Fuel Cells</p>
<p>Nanomaterials for the Selective Detection of Hydrogen at Trace Levels in the Ambient</p>
<p>Nanomaterials as Sensor for Hazardous Gas Detection</p>
<p>Polyaniline Synthesis and Its Wide-Range Sensor and Electronic Applications</p>
<p>Recent Advances and Techniques in the Hazardous Gases Detection</p>
<p>Conducting Polymer Composite-Based Sensors for Flexible Electronics</p>
<p>Nanocellulose: Insight into Health and Medical Applications</p>
<p>Nanocellulose</p>
<p>Cellulosic Biofuel: Technologies, Prospects, and Challenges</p>
<p>Development of Binderless Composites from Different Nonwood Lignocellulosic Materials: Overview</p>
<p>Eco-fibers in the Textile Industry</p>
<p>Sustainable Biopolymers in Textiles: An Overview</p>
<p>Eco-Materials in Textile Finishing</p>
<p>Eco-Fabrication of Nanomaterials for Multifunctional Textiles</p>
<p>Colored Cotton: Novel Eco-Friendly Textile Material for the Future</p>
<p>Environmental Friendly Textile Processing</p>
<p>Eco-friendly Denim Processing</p>
<p>Carbon Footprint on Denim Manufacturing</p>
<p>Clothing Swap: Gateway to Sustainable Eco-friendly Fashion</p>
<p>Environmental Photocatalysis/Photocatalytic Decontamination</p>
<p>Photocatalytic Decontamination in Pharmaceutical Effluent Treatment</p>
Photocatalytic H2 Production and Carbon Dioxide Capture Using Metallurgical Slag and Slag-Derived Materials<p></p>
<p>Nanostructured Catalysts in Vehicle Exhaust Control Systems</p>
<p>Catalytic and Photocatalytic Properties of Oxide Spinels</p>
<p>Waste-Porous-Based Materials as Supports of TiO2 Photocatalytic Coatings for Environmental Applications</p>
<p>Ecofriendly Nanomaterials for Sustainable Photocatalytic Decontamination of Organics and Bacteria</p>
<p>Hydrogen Generation Via Photoelectrochemical Splitting of Water</p>
<p>Engineering Two-Dimensional Transition Metal Dichalcogenide Electrocatalysts for Water Splitting Hydrogen Generation</p>
<p>Conventional and Renewable Energy-Based Hydrogen Production</p>
<p>Industrial Perennial Crops for a Post-Petroleum Materials Economy</p>
Artificial Photosynthesis: An Approach for a Sustainable Future<p></p>
<p>Eco-Friendly Materials for Chemical Products Manufacturing: Adhesives Derived from Biomass and Renewable Resources</p>
<p>Production of Biodiesel from Algae: An Update</p>
<p>Catalytic Upgrading of Bio-oil for Production of Drop-In Fuels</p>
<p>Bio-Based Nanoemulsions: An Eco-Safe Approach Towards the Eco-Toxicity Problem</p>
<p>Biomaterials Degradation and Bioabsorbability: Biomedical Potentials of Marine Enzymes</p>
<p>Nanotechnology in Food Packaging Applications: Barrier Materials, Antimicrobial Agents, Sensors, and Safety Assessment</p>
<p>Food Biopackaging Based on Chitosan</p>
<p>Wasteless Processing of Renewable Protein and Carbohydrate-Containing Waste into Consumer Goods</p>
<p>Construction Materials Reinforced with Natural Products</p>
<p>Construction Materials for the Urban Environment: Environmental Assessment of Life Cycle Performance</p>
<p>Recycled Materials and By-Products for Pavement Construction</p>
<p>Cement-Bonded Lignocellulosic Panel (CLP): A Promising Environmental Friendly Construction Material for Conservation of Forest Resources</p>
<p>Bio-Inspired Materials: Contribution of Biology to Energy Efficiency of Buildings</p>
<p>Thermal and Acoustic Building Insulations from Agricultural Wastes</p>
<p>Growth of Ecomaterials and Eco-efficiency in Major Metallic Structural Materials</p>
<p>Green Synthesis of Metal, Metal Oxide Nanoparticles, and Their Various Applications</p>
Metrology for Metal Nanoparticles<p></p>
<p>Silver Nanoparticles: Synthesis and Applications</p>
<p>Metal Oxide Nanomaterials for Environmental Applications</p>
<p>Nanostructured Calcium Phosphate-Based Bioceramics from Waste Materials</p>
<p>Nanopowdered h-BN as a Wear-Reducing Eco-Friendly Material</p>
<p>Nanoscale Clay Minerals for Functional Ecomaterials: Fabrication, Applications, and Future Trends</p>
<p>Ytterbium and Erbium Co-doped Rare-Earth Aluminum Borate Crystals as New Materials for Eye-Safe Lasers: Flux Growth and Characterization</p>
<p>Hierarchical MWW Zeolites by Soft and Hard Template Routes</p>
<p>Plasmonic Ecomaterials</p>
<p>Ecomaterials on Basis of Apatite</p>
Electrochemical Synthesis of Coordination Compounds of Lanthanides: Effective Luminophores<p></p>
<p>Novel Nanoscaled Materials from Lignocellulosic Sources: Potential Applications in the Agricultural Sector</p>
<p>Green Nanotechnology for Biomedical, Food, and Agricultural Applications</p>
<p>Agro-Industrial Waste Materials and their Recycled Value-Added Applications: Review</p>
<p>Polysaccharides as Eco-Nanomaterials for Agricultural Applications</p>
<p>Compostable Polymeric Ecomaterials: Environment-Friendly Waste Management Alternative to Landfills</p>
<p>Geopolymers: Past, Present, and Future of Low Carbon Footprint Eco-Materials</p>
<p>Carbon Nanotube-Based Biodegradable Polymeric Nanocomposites: 3Rs (Reduce, Reuse, and Recycle) in the Design</p>
Polyhydroxybutyrate (PHB): A Standout Biopolymer for Environmental Sustainability<p></p>
<p>Eco-polymer and Carbon Nanotube Composite: Safe Technology</p>
<p>Polyhydroxyalkanoates (PHAs) in Industrial Applications</p>
<p>Polyhydroxyalkanoates: Biodegradable Plastics and Their Applications</p>
<p>Biobased Polyamide Ecomaterials and Their Susceptibility to Biodegradation</p>
<p>Alternative and Renewable Bio-based and Biodegradable Plastics</p>
<p>Biobased and Biodegradable Plastics</p>
<p>Waste Polymethyl Methacrylate (PMMA): Recycling and High-Yield Monomer Recovery</p>
<p>Polymers for Energy Applications</p>
<p>Eco-Materials with Noise Reduction Properties</p>
<p>Halogen-Free Flame Retardant Plastics</p>
<p>Environmentally Friendly Fluids for High-Voltage Applications</p>
<p>An Overview of Advancement in the Application of Heat-Resistant Alloys</p>
<p>Eco-Material Selection for Auto Bodies</p>
<p>Regeneration and Recycling of Spent Bleaching Earth</p>
<p>Biomimetic Materials for Addressing Climate Change</p>
<p>Multifunctional Composite Ecomaterials and Their Impact on Sustainability</p>
<p>Advanced Materials from Forests</p>
<p>Eco-Friendly Nanoparticle Additives for Lubricants and Their Tribological Characterization</p>
<p>Eco-friendly Lubricants for Tribological Application</p>
Highly Efficient Hybrid Protective Materials for Technically Complicated Systems in Natural Aggressive Conditions<p></p>
<p>Eco-Adsorbents for Organic Solvents and Grease Removal</p>
<p>Microporous and Mesoporous Materials from Natural and Inexpensive Sources</p>
<p>Low-Cost Materials with Adsorption Performance</p>
<p>Eco-Friendly Energetic Substances for Initiation Devices</p>
<p>Nanoclays for Biomedical Applications</p>
<p>Biomedical Applications of Chitosan</p>
<p>Biomolecule Silver Nanoparticle-Based Materials for Biomedical Applications</p>
<p>Porosity in Biomaterials: A Key Factor in the Development of Applied Materials in Biomedicine</p>
<p>Nanobioremediation: Ecofriendly Application of Nanomaterials</p>
<p>Bioactive Cosmetics</p>
<p>DNA Nanotechnology</p>
<p>Protein Nanotechnology</p>
<p>RNA Nanotechnology</p>
<p>Nanomaterial for the Management of Radioactive Waste</p>
<p>New Sorbents for Processing Radioactive Waste</p>
<p>Application of Nanoparticle Materials in Radiation Therapy</p>
<p>Ecological Aspects of Nuclear Industry</p>
<p>Life Cycle of Ion Exchangers in Nuclear Industry: Application and Management of Spent Exchangers</p>
<p> </p>
<p>Environmental Impact Measurements: Tool and Techniques</p>
<p>Green Nanomaterials for Clean Environment</p>
<p>Synthesis Techniques for Preparation of Nanomaterials</p>
<p>Plant Materials for the Synthesis of Nanomaterials: Greener Sources</p>
<p>Processing and Characterization of Bio-Composites</p>
<p>Sustainable Advancement to the Synthesis of Oxadiazoles</p>
<p>Analytical Models for the Permeabilities of Fibrous Ecomaterials</p>
<p>Principles for Evaluations of Healthiness of New Materials</p>
<p>Nanomaterials for Industrial Wastewater Treatment and Water Purification</p>
Nano-Geomaterials for Water Treatment<p></p>
<p>Applications of Nanoparticles in the Treatment of Wastewater</p>
<p>Iron and Iron Oxide-Based Eco-Nanomaterials for Catalysis and Water Remediation</p>
<p>Partial Desalination of Saline Irrigation Water Using [FexOy(OH)z(H2O)m)n+/−]</p>
<p>Porous Materials Obtained from Nonconventional Sources Used in Wastewater Treatment Processes</p>
<p>Remediation of Water Contaminants</p>
<p>New Carbon Nanomaterials for Water Purification from Heavy Metals</p>
<p>Semiconductor Eco-Materials for Water Treatment</p>
<p>Composite Nanofibers for Removing Water Pollutants: Fabrication Techniques</p>
<p>Porous Nanomaterials for Heavy Metal Removal</p>
Degradation of Pollutants Using Advanced Ecomaterials<p></p>
<p>Novel Eco-friendly Mitigation Strategies for Managing Oil Spills and Municipal Waste Dump Site Leachates</p>
<p>Antimicrobial Activity of the Engineered Nanoparticles Used as Coating Agents</p>
<p>Algal Degradation of Organic Pollutants</p>
<p>TiO2/SiO2 Films for Removal of Volatile Organic Compounds (VOCs) from Indoor Air</p>
<p>Degradation of Volatile Organic Compounds with Catalysts-Containing Zeolite and Ordered Mesoporous Silica</p>
<p>CO2 Sequestration: Processes and Methodologies</p>
<p>CO2 Sequestration and Transformation Potential of Agricultural System</p>
<p>Efficient Utilization of Supercritical Carbon Dioxide as Both Reactant and Reaction Medium for Synthetic Applications</p>
Energy Recovery from Solid Waste: Application of Gasification Technology<p></p>
<p>Renewable Energy Sources: Regulations in the Russian Federation</p>
<p>Metal Hydrides for Energy Storage</p>
<p>Metal-Organic Frameworks (MOFs) Composited with Nanomaterials for Next-Generation Supercapacitive Energy Storage Devices</p>
<p>Nanocomposites for Structural and Energy Applications</p>
<p>Efficient, Sustainable, and Clean Energy Storage in Supercapacitors Using Biomass-Derived Carbon Materials</p>
<p>Nanofluids Containing Titanium Dioxide: Thermo-Physical Properties and Energy Saving Applications</p>
<p>Biomass Energy and Bio-solar Hybrid Energy Systems</p>
<p>Thin Film Hydrogen Storages</p>
Hydrogen Storage Alloys: Types and Characteristics<p></p>
<p>Thermoelectric power generation from waste heat</p>
<p>Ecomaterials in Solar Cell Design</p>
<p>Radiation-Resistant Solar Cells: Recent Updates and Future Prospective</p>
<p>Photovoltaic Materials</p>
<p>Advances in Polymer-Based Photovoltaic Cells: Review of Pioneering Materials, Design, and Device Physics</p>
<p>Optimization of Bulk Heterojunction Organic Photovoltaic Devices</p>
<p>Carbon Nanostructured Catalysts as High Efficient Materials for Low Temperature Fuel Cells</p>
<p>Renewable Bio-anodes for Microbial Fuel Cells</p>
<p>Alternative Fuels from Waste Products in Cement Industry</p>
<p>Green Energy Generation from Microbial Fuel Cells</p>
<p>Nanomaterials for the Selective Detection of Hydrogen at Trace Levels in the Ambient</p>
<p>Nanomaterials as Sensor for Hazardous Gas Detection</p>
<p>Polyaniline Synthesis and Its Wide-Range Sensor and Electronic Applications</p>
<p>Recent Advances and Techniques in the Hazardous Gases Detection</p>
<p>Conducting Polymer Composite-Based Sensors for Flexible Electronics</p>
<p>Nanocellulose: Insight into Health and Medical Applications</p>
<p>Nanocellulose</p>
<p>Cellulosic Biofuel: Technologies, Prospects, and Challenges</p>
<p>Development of Binderless Composites from Different Nonwood Lignocellulosic Materials: Overview</p>
<p>Eco-fibers in the Textile Industry</p>
<p>Sustainable Biopolymers in Textiles: An Overview</p>
<p>Eco-Materials in Textile Finishing</p>
<p>Eco-Fabrication of Nanomaterials for Multifunctional Textiles</p>
<p>Colored Cotton: Novel Eco-Friendly Textile Material for the Future</p>
<p>Environmental Friendly Textile Processing</p>
<p>Eco-friendly Denim Processing</p>
<p>Carbon Footprint on Denim Manufacturing</p>
<p>Clothing Swap: Gateway to Sustainable Eco-friendly Fashion</p>
<p>Environmental Photocatalysis/Photocatalytic Decontamination</p>
<p>Photocatalytic Decontamination in Pharmaceutical Effluent Treatment</p>
Photocatalytic H2 Production and Carbon Dioxide Capture Using Metallurgical Slag and Slag-Derived Materials<p></p>
<p>Nanostructured Catalysts in Vehicle Exhaust Control Systems</p>
<p>Catalytic and Photocatalytic Properties of Oxide Spinels</p>
<p>Waste-Porous-Based Materials as Supports of TiO2 Photocatalytic Coatings for Environmental Applications</p>
<p>Ecofriendly Nanomaterials for Sustainable Photocatalytic Decontamination of Organics and Bacteria</p>
<p>Hydrogen Generation Via Photoelectrochemical Splitting of Water</p>
<p>Engineering Two-Dimensional Transition Metal Dichalcogenide Electrocatalysts for Water Splitting Hydrogen Generation</p>
<p>Conventional and Renewable Energy-Based Hydrogen Production</p>
<p>Industrial Perennial Crops for a Post-Petroleum Materials Economy</p>
Artificial Photosynthesis: An Approach for a Sustainable Future<p></p>
<p>Eco-Friendly Materials for Chemical Products Manufacturing: Adhesives Derived from Biomass and Renewable Resources</p>
<p>Production of Biodiesel from Algae: An Update</p>
<p>Catalytic Upgrading of Bio-oil for Production of Drop-In Fuels</p>
<p>Bio-Based Nanoemulsions: An Eco-Safe Approach Towards the Eco-Toxicity Problem</p>
<p>Biomaterials Degradation and Bioabsorbability: Biomedical Potentials of Marine Enzymes</p>
<p>Nanotechnology in Food Packaging Applications: Barrier Materials, Antimicrobial Agents, Sensors, and Safety Assessment</p>
<p>Food Biopackaging Based on Chitosan</p>
<p>Wasteless Processing of Renewable Protein and Carbohydrate-Containing Waste into Consumer Goods</p>
<p>Construction Materials Reinforced with Natural Products</p>
<p>Construction Materials for the Urban Environment: Environmental Assessment of Life Cycle Performance</p>
<p>Recycled Materials and By-Products for Pavement Construction</p>
<p>Cement-Bonded Lignocellulosic Panel (CLP): A Promising Environmental Friendly Construction Material for Conservation of Forest Resources</p>
<p>Bio-Inspired Materials: Contribution of Biology to Energy Efficiency of Buildings</p>
<p>Thermal and Acoustic Building Insulations from Agricultural Wastes</p>
<p>Growth of Ecomaterials and Eco-efficiency in Major Metallic Structural Materials</p>
<p>Green Synthesis of Metal, Metal Oxide Nanoparticles, and Their Various Applications</p>
Metrology for Metal Nanoparticles<p></p>
<p>Silver Nanoparticles: Synthesis and Applications</p>
<p>Metal Oxide Nanomaterials for Environmental Applications</p>
<p>Nanostructured Calcium Phosphate-Based Bioceramics from Waste Materials</p>
<p>Nanopowdered h-BN as a Wear-Reducing Eco-Friendly Material</p>
<p>Nanoscale Clay Minerals for Functional Ecomaterials: Fabrication, Applications, and Future Trends</p>
<p>Ytterbium and Erbium Co-doped Rare-Earth Aluminum Borate Crystals as New Materials for Eye-Safe Lasers: Flux Growth and Characterization</p>
<p>Hierarchical MWW Zeolites by Soft and Hard Template Routes</p>
<p>Plasmonic Ecomaterials</p>
<p>Ecomaterials on Basis of Apatite</p>
Electrochemical Synthesis of Coordination Compounds of Lanthanides: Effective Luminophores<p></p>
<p>Novel Nanoscaled Materials from Lignocellulosic Sources: Potential Applications in the Agricultural Sector</p>
<p>Green Nanotechnology for Biomedical, Food, and Agricultural Applications</p>
<p>Agro-Industrial Waste Materials and their Recycled Value-Added Applications: Review</p>
<p>Polysaccharides as Eco-Nanomaterials for Agricultural Applications</p>
<p>Compostable Polymeric Ecomaterials: Environment-Friendly Waste Management Alternative to Landfills</p>
<p>Geopolymers: Past, Present, and Future of Low Carbon Footprint Eco-Materials</p>
<p>Carbon Nanotube-Based Biodegradable Polymeric Nanocomposites: 3Rs (Reduce, Reuse, and Recycle) in the Design</p>
Polyhydroxybutyrate (PHB): A Standout Biopolymer for Environmental Sustainability<p></p>
<p>Eco-polymer and Carbon Nanotube Composite: Safe Technology</p>
<p>Polyhydroxyalkanoates (PHAs) in Industrial Applications</p>
<p>Polyhydroxyalkanoates: Biodegradable Plastics and Their Applications</p>
<p>Biobased Polyamide Ecomaterials and Their Susceptibility to Biodegradation</p>
<p>Alternative and Renewable Bio-based and Biodegradable Plastics</p>
<p>Biobased and Biodegradable Plastics</p>
<p>Waste Polymethyl Methacrylate (PMMA): Recycling and High-Yield Monomer Recovery</p>
<p>Polymers for Energy Applications</p>
<p>Eco-Materials with Noise Reduction Properties</p>
<p>Halogen-Free Flame Retardant Plastics</p>
<p>Environmentally Friendly Fluids for High-Voltage Applications</p>
<p>An Overview of Advancement in the Application of Heat-Resistant Alloys</p>
<p>Eco-Material Selection for Auto Bodies</p>
<p>Regeneration and Recycling of Spent Bleaching Earth</p>
<p>Biomimetic Materials for Addressing Climate Change</p>
<p>Multifunctional Composite Ecomaterials and Their Impact on Sustainability</p>
<p>Advanced Materials from Forests</p>
<p>Eco-Friendly Nanoparticle Additives for Lubricants and Their Tribological Characterization</p>
<p>Eco-friendly Lubricants for Tribological Application</p>
Highly Efficient Hybrid Protective Materials for Technically Complicated Systems in Natural Aggressive Conditions<p></p>
<p>Eco-Adsorbents for Organic Solvents and Grease Removal</p>
<p>Microporous and Mesoporous Materials from Natural and Inexpensive Sources</p>
<p>Low-Cost Materials with Adsorption Performance</p>
<p>Eco-Friendly Energetic Substances for Initiation Devices</p>
<p>Nanoclays for Biomedical Applications</p>
<p>Biomedical Applications of Chitosan</p>
<p>Biomolecule Silver Nanoparticle-Based Materials for Biomedical Applications</p>
<p>Porosity in Biomaterials: A Key Factor in the Development of Applied Materials in Biomedicine</p>
<p>Nanobioremediation: Ecofriendly Application of Nanomaterials</p>
<p>Bioactive Cosmetics</p>
<p>DNA Nanotechnology</p>
<p>Protein Nanotechnology</p>
<p>RNA Nanotechnology</p>
<p>Nanomaterial for the Management of Radioactive Waste</p>
<p>New Sorbents for Processing Radioactive Waste</p>
<p>Application of Nanoparticle Materials in Radiation Therapy</p>
<p>Ecological Aspects of Nuclear Industry</p>
<p>Life Cycle of Ion Exchangers in Nuclear Industry: Application and Management of Spent Exchangers</p>
<p> </p>