Bio and Nanoremediation of Hazardous Environmental Pollutants
Herausgeber: Luqueño, Fabián Fernández; Pérez, Gabriela Medina; López-Valdez, Fernando
Bio and Nanoremediation of Hazardous Environmental Pollutants
Herausgeber: Luqueño, Fabián Fernández; Pérez, Gabriela Medina; López-Valdez, Fernando
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This book is a compendium of knowledge about nanomaterials and strategies for bioremediation over hazardous environmental pollutants.
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This book is a compendium of knowledge about nanomaterials and strategies for bioremediation over hazardous environmental pollutants.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 344
- Erscheinungstermin: 4. August 2023
- Englisch
- Abmessung: 254mm x 178mm x 21mm
- Gewicht: 821g
- ISBN-13: 9780367512378
- ISBN-10: 0367512378
- Artikelnr.: 68101920
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 344
- Erscheinungstermin: 4. August 2023
- Englisch
- Abmessung: 254mm x 178mm x 21mm
- Gewicht: 821g
- ISBN-13: 9780367512378
- ISBN-10: 0367512378
- Artikelnr.: 68101920
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Dr. Fabián Fernández-Luqueño is a Full Professor at the Center for Research and Advanced Studies of the National Polytechnic Institute (Cinvestav Saltillo), Mexico. He received a Bachelor's degree in engineering in soil science, his M.Sc. in edaphology, and a Ph.D. in Biotechnology. His research area is plant-environment interactions, bio- and nano-remediation, agricultural nanotechnology, and the effect of nanomaterials on crops, soils, and microorganisms. Fabián has authored more than 65 scientific papers, 12 science articles, 17 books, and 35 book chapters, and has been a reviewer of more than 20 high-impact peer-reviewed journals (Ranked in JCR-Q1) and associate editor from Heliyon (IF = 3.772) & Terra Latinoamericana (Scopus). He has been a dissertation advisor for undergraduate, bachelor, master, and Ph.D. degrees. Fabián is a member of Researchers-National Systems in level II, Mexican Academy of Sciences, and is currently vice-president of the Mexican Society of Soil Science. Dr. Fernando López-Valdez is a full Professor at the Research Centre for Applied Biotechnology (Centro de Investigación en Biotecnología Aplicada), Instituto Politécnico Nacional, Mexico. He is a Bachelor grade in Chem. Engineering (UV, México). M.Sc. Degree in Biotechnology (Bioprocesses) and Ph.D. in Biotechnology (Agricultural Biotech.) from CINVESTAV, Mexico. Dr. Fernando López-Valdez has been a Postgraduate professor for more than 20 years. He is also a Author or co-author of over 20 book chapters, two books as Editor, over 20 articles papers (JCR or peer-reviewed). He has lectured for science divulgation on Biotechnology, Agricultural, and Environmental Biotechnology fields. Currently, he is the Associate Editor for Terra Latinoamericana Journal, Mexican Society of Soil Science (SMCS). Dr. Gabriela Medina-Pérez is a Doctor of Science from the Scientific and Technological Development Program for Society with an emphasis on Agricultural Nanotechnology from the Center for Research and Advanced Studies of the National Polytechnic Institute (CINVESTAV-IPN). She is a Master in Food Sciences from the Autonomous University of the State of Hidalgo (UAEH) and an Agroindustrial Engineer from the Institute of Agricultural Sciences of UAEH (ICAP-UAEH). She is a member of the National System of Researchers (SNI) with a recent entry at the candidate level. An active member of the International Network of Government Scientific Advice (INGSA) since 2018. She is currently a full-time research professor in the academic area of agro-industrial engineering and food engineering at the ICAP-UAEH. She is also the general coordinator of the institute's outreach. She has participated as lead author and co-author in several indexed articles, book chapters, and conference proceedings on bioactive compounds, nanotechnology, agricultural biotechnology, and sustainable development.
SECTION 1. The Jeopardized Soil. Isoproturon Herbicide Interaction with
Crops and Biodegradation. New Paradigm in Algae-based Wastewater
Remediation. Microbial Communities and GHG Emissions from Polluted
Agricultural Soils Remediated with Several Amendments. Agricultural
Nanotechnologies to Improve the Crops' Quality, Increasing their Yields and
Remediating Polluted Soils. SECTION 2. Genetically Modified Plants for
Phytoremediation Biotechnological Microbial Remediants: Enhanced
Pedospheric Detoxification Accomplished via Transgenic Plants. Synthesis
and Applications of Transition Metal Oxide Nanoparticles for Bacteria
Disinfection and Virus Inactivation in the Environment. Synthesis of
Carbon-based Nanomaterials and their use in Nanoremediation. Green
Synthesis of Nanomaterials and their use in Bio-and Nanoremediation.
Nanoremediation of Hazardous Environmental Pollutants.Chemical and
Biochemical Process Involved in the Degradation of Hazardous Contaminants
through Bio and Nanoremediation. Environmental Remediation by Novel
Nanomaterials and Fungi with High-degradation Capacity of Hazardous
Contaminants. Nanomaterials and Edible or Nonedible Crops for Dissipate
Pollutants: Using Nanotechnology to Bioremediate the Environment.
Conducting Polymers Based Nanocomposites for the Environmental Pollutants
Detection.
Crops and Biodegradation. New Paradigm in Algae-based Wastewater
Remediation. Microbial Communities and GHG Emissions from Polluted
Agricultural Soils Remediated with Several Amendments. Agricultural
Nanotechnologies to Improve the Crops' Quality, Increasing their Yields and
Remediating Polluted Soils. SECTION 2. Genetically Modified Plants for
Phytoremediation Biotechnological Microbial Remediants: Enhanced
Pedospheric Detoxification Accomplished via Transgenic Plants. Synthesis
and Applications of Transition Metal Oxide Nanoparticles for Bacteria
Disinfection and Virus Inactivation in the Environment. Synthesis of
Carbon-based Nanomaterials and their use in Nanoremediation. Green
Synthesis of Nanomaterials and their use in Bio-and Nanoremediation.
Nanoremediation of Hazardous Environmental Pollutants.Chemical and
Biochemical Process Involved in the Degradation of Hazardous Contaminants
through Bio and Nanoremediation. Environmental Remediation by Novel
Nanomaterials and Fungi with High-degradation Capacity of Hazardous
Contaminants. Nanomaterials and Edible or Nonedible Crops for Dissipate
Pollutants: Using Nanotechnology to Bioremediate the Environment.
Conducting Polymers Based Nanocomposites for the Environmental Pollutants
Detection.
SECTION 1. The Jeopardized Soil. Isoproturon Herbicide Interaction with
Crops and Biodegradation. New Paradigm in Algae-based Wastewater
Remediation. Microbial Communities and GHG Emissions from Polluted
Agricultural Soils Remediated with Several Amendments. Agricultural
Nanotechnologies to Improve the Crops' Quality, Increasing their Yields and
Remediating Polluted Soils. SECTION 2. Genetically Modified Plants for
Phytoremediation Biotechnological Microbial Remediants: Enhanced
Pedospheric Detoxification Accomplished via Transgenic Plants. Synthesis
and Applications of Transition Metal Oxide Nanoparticles for Bacteria
Disinfection and Virus Inactivation in the Environment. Synthesis of
Carbon-based Nanomaterials and their use in Nanoremediation. Green
Synthesis of Nanomaterials and their use in Bio-and Nanoremediation.
Nanoremediation of Hazardous Environmental Pollutants.Chemical and
Biochemical Process Involved in the Degradation of Hazardous Contaminants
through Bio and Nanoremediation. Environmental Remediation by Novel
Nanomaterials and Fungi with High-degradation Capacity of Hazardous
Contaminants. Nanomaterials and Edible or Nonedible Crops for Dissipate
Pollutants: Using Nanotechnology to Bioremediate the Environment.
Conducting Polymers Based Nanocomposites for the Environmental Pollutants
Detection.
Crops and Biodegradation. New Paradigm in Algae-based Wastewater
Remediation. Microbial Communities and GHG Emissions from Polluted
Agricultural Soils Remediated with Several Amendments. Agricultural
Nanotechnologies to Improve the Crops' Quality, Increasing their Yields and
Remediating Polluted Soils. SECTION 2. Genetically Modified Plants for
Phytoremediation Biotechnological Microbial Remediants: Enhanced
Pedospheric Detoxification Accomplished via Transgenic Plants. Synthesis
and Applications of Transition Metal Oxide Nanoparticles for Bacteria
Disinfection and Virus Inactivation in the Environment. Synthesis of
Carbon-based Nanomaterials and their use in Nanoremediation. Green
Synthesis of Nanomaterials and their use in Bio-and Nanoremediation.
Nanoremediation of Hazardous Environmental Pollutants.Chemical and
Biochemical Process Involved in the Degradation of Hazardous Contaminants
through Bio and Nanoremediation. Environmental Remediation by Novel
Nanomaterials and Fungi with High-degradation Capacity of Hazardous
Contaminants. Nanomaterials and Edible or Nonedible Crops for Dissipate
Pollutants: Using Nanotechnology to Bioremediate the Environment.
Conducting Polymers Based Nanocomposites for the Environmental Pollutants
Detection.