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This book examines carbon-based nanocomposite materials and their
application in various environmental fields, such as wastewater
treatment, and air and soil remediation. Featuring illustrations,
and tables summarizing the latest research, it gathers up-to-date
information on the application of carbon nanocomposites in the
removal of environmental pollutants from different sources. Given
its scope, the book is a valuable textbook for research students,
and a useful handbook and reference resource for researchers,
academics and industrial scientists working in the field of
environmental pollutants and their safe removal.
This book comprehensively reviews the key topics in microbial fuel
cells (MFC) and its applications in areas related to energy and
environmental mitigation. It covers the microbial electrochemistry
and the generation of electricity from waste, various synthesis and
characterization approaches of polymer-based MFC electrodes, the
multifunctional properties of a MFC which allows its simultaneous
use as a fuel cell, bioremediation and biosensor device. It
provides new direction to the readers to better understand the
chemistry in MFC and methods to improve their desired properties.
This book is a very valuable reference source for graduates and
postgraduates, engineers and research scholars in the areas related
to fuel cells electrochemistry and pollution mitigation.
This book examines carbon-based nanocomposite materials and their
application in various environmental fields, such as wastewater
treatment, and air and soil remediation. Featuring illustrations,
and tables summarizing the latest research, it gathers up-to-date
information on the application of carbon nanocomposites in the
removal of environmental pollutants from different sources. Given
its scope, the book is a valuable textbook for research students,
and a useful handbook and reference resource for researchers,
academics and industrial scientists working in the field of
environmental pollutants and their safe removal.
This book covers the basic and sustainable approach of
nanofiltration membrane techniques along with their fabrication,
characterization, separation mechanisms, and broad applications in
the field of wastewater treatment. It provides a wide knowledge of
nanofiltration technique to water purification audience concerning
the recent development with various illustrations, methods and
results for graduate students, scientists, academicians,
researchers, and industrialists. Readers from wastewater and water
purification will have a quick reference by exploring the research
literature on the subject field with commercial value-added
research applications of nanofiltration membrane.
Ionic Liquid-based Technologies for Environmental Sustainability
explores the range of sustainable and green applications of IL
materials achieved in recent years, such as gas solubility, biomass
pre-treatment, bio-catalysis, energy storage, gas separation and
purification technologies. The book also provides a reference
material for future research in IL-based technologies for
environmental and energy applications, which are much in-demand due
to sustainable, reusable and eco-friendly methods for highly
innovative and applied materials. Written by eminent scholars and
leading experts from around the world, the book aims to cover the
synthesis and characterization of broad range of ionic liquids and
their sustainable applications. Chapters provide cutting-edge
research with state-of-the-art developments, including the use of
IL-based materials for the removal of pharmaceuticals, dyes and
value-added metals.
Emerging Techniques for Treatment of Toxic Metals from Wastewater
explores the different physical and chemical methods that can be
used to remove toxins from wastewater, including adsorption,
solvent extraction, ion exchange, precipitation, filtration and
photocatalytic degradation. Bringing together contributions from
leading experts in the field, the book covers each of the different
techniques in detail, combining emergent research outcomes with
fundamental theoretical concepts to provide a clear appraisal of
the different techniques available, along with their applications.
It is an essential recourse for researchers, industrialists and
students concerned with the remediation of toxic metals from water
and wastewater.
Cosmetic manufacturers use nanoscale size ingredients to provide
better UV protection, deeper skin penetration, long-lasting
effects, increased color and finish quality. This approach enables
the forming of nanoscale cosmetic ingredients, which can possess
active components readily absorbed into the skin, repair damage
easily, and promote improved product outcomes. Nanotechnology for
the Preparation of Cosmetics using Plant-Based Extracts explores
the various applications of nanotechnology in the cosmetic
industry. Techniques for the development of cosmetic are a topic of
increasing interest with widespread opportunities for potential
applications in a broad range of industrial applications. The book
covers a variety of techniques and processes, focusing on its
potential applications in the field of skincare and makeup
cosmetics. The book will cover not only conventional processes but
also innovative and efficient techniques for the preparation of
cosmetics exhibiting unique applications in the field.
Nanotechnology for the Preparation of Cosmetics using Plant-Based
Extracts is an important reference source for materials scientists,
engineers and pharmaceutical scientists who want to learn more
about the use of cosmetics prepared through nanotechnology to
achieve the materials characteristics and enhancements in the
mechanism and properties of makeup and skincare.
Graphene-Based Nanotechnologies for Energy and Environmental
Applications explores how graphene-based materials are being used
to make more efficient, reliable products and devices for energy
storage and harvesting and environmental monitoring and
purification. The book outlines the major sustainable, recyclable,
and eco-friendly methods for using a range of graphene-based
materials in innovative ways. It represents an important
information source for materials scientists and engineers who want
to learn more about the use of graphene-based nanomaterials to
create the next generation of products and devices in energy and
environmental science. Graphene-based nanotechnologies are at the
heart of some of the most exciting developments in the fields of
energy and environmental research. Graphene has exceptional
properties, which are being used to create more effective products
for electronic systems, environmental sensing devices, energy
storage, electrode materials, fuel cell, novel nano-sorbents,
membrane and photocatalytic degradation of environmental pollutants
especially in the field of water and wastewater treatment.
Ionic liquids and Their Application in Green Chemistry covers the
synthesis and characterization of a broad range of ionic liquids
(ILs) and their polymers, along with their application in multiple
areas for nanomaterials and environmental sustainability. The book
provides reference material for future research in IL-based
technologies for environmental and energy applications. It covers
not only the conventional IL applications. but also advanced IL
polymer-based materials and their application in energy storage and
energy generator applications. Finally, the book discusses the
major fields of application of IL-based materials in synthesis of
nanomaterials and the role in graphene synthesis and its
composites. Written by eminent scholars and leading experts from
around the world, this book brings the literature up to date on the
most recent progress in the field of IL based materials and their
applications for the environmental sustainability.
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