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.
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Table of Contents
Section 1: Fundamentals and basics of green and sustainable iron oxides nanomaterial’s: This section will brief about iron oxides, their various types, inter-conversions and signi?cance
1 Introduction to green and sustainable iron oxide nanomaterials: fundamentals and recent developments
2 Signi?cance of various types of iron oxides and their nanocomposites: exploration of magnetic and photocatalytic properties
Section 2: Green synthesis of iron oxides based sustainable nanomaterials: This part will offer various synthesis strategies of generation of various iron oxides
3 Microorganism-based green fabrication of iron oxide nanomaterials: current status and future prospects
4 Insight into the mechanism of green synthesis of iron oxide nanomaterials: investigation on the role of various parameters
5 Characterization techniques for iron oxides nanomaterials involved in photocatalytic degradation and other applications
Section 3: Iron oxide-based sensors for environment monitoring
6 Solid-state gas sensors based on iron oxides
7 Iron oxide nanoparticles: an emerging sensing material for gas detection
Section 4: Environmental remediation applications of green and sustainable iron-based NPs and NC
8 Applications of iron oxides for soil remediation
9 Iron oxide-based catalysts and adsorbents to reduce exhaust emissions
10 Recent progress of iron oxides as ef?cient sorbents for CO? capture
Section 5: Energy applications of iron oxides and based nano-composites
11 Bio-inspired synthesized iron-based nanomaterials for application in biofuels production: a new insight
12 Ultrasound driven nanoarchitectonics of iron oxide based composites for future energy technology
13 Iron oxide applications in solar cells
14 Applications of iron oxide-based supercapacitors
Section 6: Biomedical and industrial applications of iron oxides nanomaterials
15 Biomedical and industrial applications of iron oxide nanomaterials
16 Iron oxide-based nanocomposites for wastewater remediation applications
17 FeCo magnetic alloy for industrial applications
18 Iron oxide-based materials as anodes in batteries
19 Solid oxide fuel cells using iron oxide-based materials
20 Toxicity and biocompatibility of iron oxides
Authors
Uma Shanker Assistant Professor, Department of Chemistry, Dr. B. R. Ambedkar National Institute of Technology, Punjab, India.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.
Manviri Rani Assistant Professor, Department of Chemistry, Malaviya National Institute of Technology Jaipur, India.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.
