Manviri Rani, Uma Shanker - Green and Sustainable Synthesis of Iron Oxide-Based Nanomaterials for Energy and Environmental Applications

Write the first review!

CHF 320.00

Manviri Rani, Uma Shanker

Green and Sustainable Synthesis of Iron Oxide-Based Nanomaterials for Energy and Environmental Applications

English · Paperback / Softback

Shipping usually within 3 to 5 weeks

Description

Read more










Green and Sustainable Synthesis of Iron Oxide-Based Nanomaterials for Energy and Environmental Applications explores various synthesis methods of iron and iron oxide nanoparticles, with an emphasis on green synthesis - a sustainable and eco-friendly method. The book investigates a range of alternative routes to the synthesis of iron-based nanomaterials, such as using microorganisms (fungi, bacteria, actinomycetes), algae, green plants, and various biocompatible green reagents such as biopolymers, cellulose, and biomass. Furthermore, the effects of various parameters used in the green synthesis approach are examined in order to provide a clear image of the physicochemical features of the nanomaterials created.


About the author

Dr. Uma Shanker is an Associate Professor, in the Department of Chemistry, B R Ambedkar National Institute of Technology, Jalandhar, Punjab, India. His research interests include green nanotechnology, environmental remediation and organic chemistry. Dr. Shanker has been featured amongst the top 2% of the scientists around the globe, as per the report of Stanford University USA and Elsevier.
Dr. Manviri Rani is an Assistant Professor at Department of Chemistry, Malaviya National Institute of Technology, Jaipur, Rajasthan, India. Her research interests include green nanotechnology, environmental nanotechnology and analytical chemistry. Dr. Rani has been featured amongst the top 2% of the scientists around the globe, as per the report of Stanford University USA and Elsevier.

Product details

Assisted by Uma Shanker (Editor), Manviri Rani (Editor)
Publisher Elsevier
 
Content Book
Product form Paperback / Softback
Publication date 27.03.2026
Subject Natural sciences, medicine, IT, technology > Physics, astronomy > Atomic physics, nuclear physics
 
EAN 9780443218453
ISBN 978-0-443-21845-3
Dimensions (packing) 15.2 x 22.9 cm
Weight (packing) 450 g
 
Series Metal Oxides
Subjects TECHNOLOGY & ENGINEERING / Environmental / Waste Management, ULTRASOUND, Sustainable Development, TECHNOLOGY & ENGINEERING / Electronics / General, SCIENCE / Energy, TECHNOLOGY & ENGINEERING / Environmental / General, biomedical, pharmaceutical, Clean Energy, The environment, Catalysis, Stability, sustainable, energy storage, Green Chemistry, Science / Environmental Science, Microorganisms, Waste Management, electrochemistry, Biofuels, Condensed Matter Physics, Materials science, Nanoscience, Waste treatment & disposal, Alternative & renewable energy sources & technology, natural resources, Electronics engineering, Environmental pollution, Mycology, Environmental science, engineering and technology, Alternative and renewable energy sources and technology, Materials Characterization, TECHNOLOGY & ENGINEERING / Materials Science / General, Fuel Cells, Electronics & Communications Engineering, Waste treatment and disposal, biomass, Toxicity, biosynthesis, energy technology, microorganism, recombination, Surface Chemistry, Soil remediation, drug delivery, CO2 capture, Polyphenols, wastewater remediation, Environmental Remediation, Green synthesis, electrolytes, sodium-ion batteries, Lithium Ion Batteries, gas sensing, Environmental Nanotechnology, Environmental Chemical Engineering, iron oxide nanoparticles, Superparamagnetism, Power Conversion Efficiency, supercapacitor, Electrical materials, polyethylene glycol, MRI imaging, Cathodes, electrochemical energy storage, nanomaterials synthesis, gas sensors, Cavitation, sustainability

, Materials application, materials synthesis, Iron oxide, Heterojunction, Plant (plant biology), Materials property, Engine emissions, CO2 conversion, iron oxides, Iron oxide nanoparticles (IONPs), Bioreagents, Doped iron oxides, Oxidative stress nanotoxicity, Potassium ion batteries, Iron oxides based nanomaterials, Sensing mechanism, Nanoparticles and nanostructures, FeCo alloy, Rapid synthesis, Iron oxides nanomaterials, Symmetrical fuel cells, Cocktail effect, Organic and heavy metal pollutants, Magnetic and photocatalytic properties, Spin-engineering, Reduction and stabilization, Sorptions, Sustainability of environment, Mechanism of sensing, Nanostructured iron oxides, Plant parts extract, Characterization tools
 

Customer reviews

No reviews have been written for this item yet. Write the first review and be helpful to other users when they decide on a purchase.

Write a review

Thumbs up or thumbs down? Write your own review.

For messages to CeDe.ch please use the contact form.

The input fields marked * are obligatory

By submitting this form you agree to our data privacy statement.