Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications
This exhaustive Handbook covers the synthesis and applications of nanomaterials that can be used in energy and environmental science applications. Given the pressing need for more efficient energy sources at lower costs, this book will help to provide a more cohesive understanding of nanocomposites and nanomaterials. Each chapter in this handbook is written by an expert in his or her field, and topics ranging from energy efficiency to material performance are presented. Catalysis, ceramic science, metallurgy, coatings, and green, sustainable materials are included. This Handbook provides a comprehensive guide to the field of applied nanomaterials. It will drive interest and research in the use of nanocomposites and nanomaterials for energy and environmental applications.

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Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications
This exhaustive Handbook covers the synthesis and applications of nanomaterials that can be used in energy and environmental science applications. Given the pressing need for more efficient energy sources at lower costs, this book will help to provide a more cohesive understanding of nanocomposites and nanomaterials. Each chapter in this handbook is written by an expert in his or her field, and topics ranging from energy efficiency to material performance are presented. Catalysis, ceramic science, metallurgy, coatings, and green, sustainable materials are included. This Handbook provides a comprehensive guide to the field of applied nanomaterials. It will drive interest and research in the use of nanocomposites and nanomaterials for energy and environmental applications.

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Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications

Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications

Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications

Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications

Hardcover(2021)

$1,799.99 
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Overview

This exhaustive Handbook covers the synthesis and applications of nanomaterials that can be used in energy and environmental science applications. Given the pressing need for more efficient energy sources at lower costs, this book will help to provide a more cohesive understanding of nanocomposites and nanomaterials. Each chapter in this handbook is written by an expert in his or her field, and topics ranging from energy efficiency to material performance are presented. Catalysis, ceramic science, metallurgy, coatings, and green, sustainable materials are included. This Handbook provides a comprehensive guide to the field of applied nanomaterials. It will drive interest and research in the use of nanocomposites and nanomaterials for energy and environmental applications.


Product Details

ISBN-13: 9783030362676
Publisher: Springer International Publishing
Publication date: 07/11/2021
Edition description: 2021
Pages: 3786
Product dimensions: 6.10(w) x 9.25(h) x (d)

About the Author

Dr. Oxana V. Kharissova (born in 1969 in Ukraine, former USSR, has lived in Mexico from 1995, and naturalized in Mexico in 2004) is currently a Professor and Researcher at the UANL. Degrees: An MS in 1994, in crystallography from Moscow State University, Russia, and a Ph.D. in Materials from the Universidad Autónoma de Nuevo León, Mexico. Memberships: National Researchers System (Level II), Materials Research Society. She is the co-author of four books, 3 book chapters, 75 articles, and holds four patents. Specialties: Nanotechnology (carbon nanotubes, nanometals, fullerenes), microwave irradiation and crystallography; nanotechnology-based methods for petroleum treatment.

Professor Dr. Leticia M. Torres-Martínez is recognized as Certified Leader in Renewable Energy and Energy Efficiency Applied by Harvard University, USA. She has the following academic products: more than 163 indexed articles, 60 directed these, 1 authorized patent and 4 registered, 7 chapters book, 2 books, 343 lectures, 7 proceeding books, 21 innovations and technological developments, 54 research projects, 1,443 citations to publications, leader of 5 research groups and 3 national scientific networks, 5 designed and implemented postgraduate programs. Two of these programs were designed and offered as UNI-Enterprise (Vitro and Cemex). She designed and implemented the Center for Research and Development of Ceramic Materials (CIDEMAC), which was self-financed during her leadership.

Her research lines of interest include the development of advanced materials for renewable energy systems and sustainable environmental decontamination; synthesis and characterization of multifunctional materials; development of semiconductor materials for use in environmental catalysis for remediation of water, soil and H2 generation. She has more than 61 national and international awards and recognitions, which include awards for UANL Best Research Work in Exact Sciences and Engineering and Technology areas.

Dr. Boris I. Kharisov (born in 1964, in Russia, has lived in Mexico from 1994, and naturalized in Mexico in 2003) is currently a Professor and Researcher at the Universidad Autónoma de Nuevo León (UANL). He took part in the liquidation of the consequences of the Chernobyl accident, working in the contaminated zone in 1987. Degrees: An MS in 1986, in radiochemistry and a PhD in inorganic chemistry in 1993, from the Moscow State University, Russia; Dr. Hab. in physical chemistry in 2006 from Rostov State University, Russia. Memberships: Mexican Academy of Science, National Researchers System (Level II), Materials Research Society. He is the co-author of nine books, 152 articles, ten book chapters, and holds four patents. Co-editor: Three invited special issues of international journals. He is the member of the Editorial board of three journals. Specialties: Coordination and inorganic chemistry, phthalocyanines, ultrasound, nanotechnology, chemical treatment of petroleum, environmental remediation. Dr. Kharisov has three children. His biography was published in: “Who is Who in the World”, “Outstanding People of the Twentieth Century”, and so on.

Table of Contents

Advanced Oxidation Processes leading to nanomaterials.- Environmental Phoatalysis.- Phoatalytic Decontamination.- Water Splitting.- Hydrogen Generation.- Hydrogen Production.- P Phoatalysts.- Water Treatment using nanomaterials.- Photolysis and Photoelectrochemistry.- Heterogeneous Catalysis.- Phohemical Processes.- Nanomaterials Synthesis.- Wastewater Treatment and Purification Technologies.- Thin Films and Nanotechnology.- Porous Materials.- Artificial photosynthesis.- Hydrogen storage.- Materials with noise-reduction properties.- Construction materials reinforced with natural products.- Nano-Catalysis.- Degradation of pollutants.- Mesoporous Materials.- Oil Pollutants Degradation.- Titanium Dioxide Films.- Phohemical Oxidants.- Biomass.- Glass ceramics from wastes.- Recycled plastics.- Silica fertilizer.- Wood ceramics.- Non-Metallic Building Materials.- Marine block.- Soil ceramics.- Stabilization of heavy metals from industrial wastes into ceramic matrices.- Biobased & biodegradable plastics.- Wear resistant metals and composites.- Pre-paint steel and alloys.- Hydrogen absorbing alloys and materials.- Gas separation membranes.- Ion-exchange resin for wastes treatment.- Microbial enzymes.- Absorbents for oil and grease removal.- Catalysts for fuel cells.- Coating materials for construction.- Functionally graded materials.- Lead-free solders.- Halogen flame retardant-free plastics.- Chromium-free steel.- Heavy metal free polyesters.- Vibration dumping steels.- Antibacterial coating materials.- Bone-cream for orthopedic and brain surgery.- Ultra-light steels.- Light-weight alloys.- Heat resistant alloys.- Heat mirror films.- Chromophobic fibers.- Endothermic steels.- High magnetic induction steels.- Silicon for solar cells.- Thermoelectric conversion materials.- Special glasses.- Sealing sheets for solar cells.- Materials for CO2, SOx, NOx emission reduction.- Materials for fixation and removal of radioactive wastes.- Sensors for nanoparticle detection.- Sensors for hazardous gases detection.- “Greener” aspects of materials synthesis.- “Greener” fabrication of nanomaterials.- Energy Harvesting.- Solar Fuel Production from CO2 and Water.- Lithium-Ion Batteries.- Electrochemical Capacitor Applications.- Catalysts in Biofuel Production.

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