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Sodium Alginate-based Nanomaterials for Wastewater Treatment offers
detailed coverage of fundamentals and recent advances in sodium
alginate-based nanomaterials for wastewater treatment. The book
provides a detailed overview of the development and application of
nanomaterials-based sodium alginate so that new methods can be put
in place for efficient wastewater treatment. This includes
illustrating how nanomaterials have enabled the formation of
nanocomposites or blends of sodium alginate with other compounds
like chitosan for the effective removal of heavy metals from
wastewater. This important reference source for materials
scientists and environmental engineers comprehensively covers
nanotechnology applications in efficient wastewater treatment
solutions.
Green Sustainable Process for Chemical and Environmental
Engineering and Science: Microbially-Derived Biosurfactants for
Improving Sustainability in Industry explores the role
biosurfactants may play in providing more sustainable,
environmentally benign, and economically efficient solutions for
mitigating challenges experienced in the industrial sector.
Sections cover an introduction to their production and review their
application across a broad range of industry applications, from
polymer and biofuel production to lubrification and corrosion
protection. Drawing on the knowledge of its expert team of global
contributors, the book provides useful insights for all those
currently or potentially interested in developing or applying
biosurfactants in their own work. As awareness and efforts to
develop greener products and processes continue to grow in the
chemistry community, biosurfactants are garnering much attention
for the potential roles they can play, both in reducing the use and
production of more toxic products and as tools for addressing
existing problems.
Nanocarbon and Its Composites: Preparation, Properties and
Applications provides a detailed and comprehensive review of all
major innovations in the field of nanocarbons and their composites,
including preparation, properties and applications. Coverage is
broad and quite extensive, encouraging future research in
carbon-based materials, which are in high demand due to the need to
develop more sustainable, recyclable and eco-friendly methods for
materials. Chapters are written by eminent scholars and leading
experts from around the globe who discuss the properties and
applications of carbon-based materials, such as nanotubes
(buckytubes), fullerenes, cones, horns, rods, foams, nanodiamonds
and carbon black, and much more. Chapters provide cutting-edge,
up-to-date research findings on the use of carbon-based materials
in different application fields and illustrate how to achieve
significant enhancements in physical, chemical, mechanical and
thermal properties.
Green Sustainable Process for Chemical and Environmental
Engineering and Science: Ionic Liquids as Green Solvents discusses
the application of ionic liquids as environment-friendly solvents
in the extraction, separation and purification of organic and
inorganic compounds, as reaction media in biochemical and chemical
reactions and catalysis, and in green organic and drug syntheses.
It covers various industrial applications, from polymer synthesis,
to biodiesel and lubrication, paint and pigments, water softening
and dry-cleaning, ore refining, the nuclear industry, aerogels,
fuel cells, and more. Specific sections cover hydrogenation,
oxidation, hydroformylation, acylation, acetylation, dimerization,
oligomerization, photochemical and cleavage of ethers reactions.
The book's main emphasis lies in the extraction and separation of
biomolecules, vitamins, proteins, enzymes, and DNA using ionic
liquids as green solvents. High-performance thin layer
chromatography and gas chromatography are also discussed.
Metal-Organic Frameworks for Chemical Reactions: From Organic
Transformations to Energy Applications brings together the latest
information on MOFs materials, covering recent technology in the
field of manufacturing and design. The book covers different
aspects of reactions from energy storage and catalysts, including
preparation, design and characterization techniques of MOFs
material and applications. This comprehensive resource is ideal for
researchers and advanced students studying metal-organic frameworks
in academia and industry. Metal-organic frameworks (MOFs) are
nanoporous polymers made up of inorganic metal focuses connected by
natural ligands. These entities have become a hot area of research
because of their exceptional physical and chemical properties that
make them useful in di?erent ?elds, including medicine, energy and
the environment. Since combination conditions strongly a?ect the
properties of these compounds, it is especially important to choose
an appropriate synthetic technique that produces a product with
homogenous morphology, small size dispersion, and high thermal
stability.
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