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Deep Eutectic Solvents highlights well-established research and technology on applications of DESs in corrosion sciences, protein chemistry, and organic synthesis, as well as separation science. This book provides state-of-the-art research that will revolutionize modern practices. Neoteric solvents have been proposed as a better substitute to these harmful organic solvents, and scientists have come up with various neoteric solvents in the last few years like Deep Eutectic solvents (DESs). DESs are defined as a system formed from a eutectic mixture of Lewis or Brønsted acids and bases with various ionic species- whereas ionic liquids (ILs) consist of a discrete anion and a cation. DESs stand out as a greener and cheaper neoteric solvent as compared to ILs. DESs are denser than water and fairly polar, thus can be utilized as non-aqueous substitute to water in many separation processes. DESs have very high distribution coefficient of solutes, and even dissolves gases and metal oxides selectively. They also readily dissolve organic macromolecules, thereby becoming useful in pharmacological applications.
This book introduces the different advanced hybrid composite materials used in aerospace, automotive, marine, and general engineering infrastructures. It represents the current development processes and applications in aircraft, automobile, and marine structures. This book also contains test cases and their validation using a finite element approach using computer tools. The book also deals with the design approach for innovative hybrid composite materials focused on diverse engineering and non-engineering applications. A detailed review of the state-of-the-art composite materials study presented here would be of interest to scientists, academics, students, and engineers and professionals in general working in the field of advanced composite materials and structures. This book is also useful for Ph.D. research scholars to improve their fundamental understanding of advanced materials and is also suitable for master¿s and undergraduate courses on composite materials.
This book presents the selected papers presented at the Third International Congress of Applied Chemistry & Environment (ICACE¿3) that took place on May 27-29, 2022. The topics of the conference covers topics from the thematic sections: (1) Environment and Climate Change; (2) Green Chemistry and Natural Substances; (3) Biobased Materials and Nanomaterials; (4) Sustainable Textiles and Clean Processes. For this edition of the conference, it is devoted to present the advantage to use annual plants and/or lignocellulose material as sources for production of fibers and/or cellulose derivatives and/or nanocellulose material with focus on their processing, properties and applications. This book benefits lecturers, students, researchers and industrialists who are working in the field of natural fiber especially in order to preserve the forest resource and to satisfy the increasing demand in pulps.
This book presents the selected papers presented at the 2nd World Conference on Byproducts of Palms and their Applications (ByPalma 2021), held as a virtual conference on September 28-30, 2021. The conference focused on the byproducts of palm plantations around the globe and their current and potential applications. It provided an interdisciplinary platform for leading academic scientists, researchers, artisans, entrepreneurs and industry professionals as well as palm growers to exchange recent developments, technologies, innovations, trends, concerns, challenges, and opportunities, related to palm by-products R&D, manufacturing, and crafts. As a reference, it will be of interest to students, scientists, engineers, government officials, and industrial practitioners.
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