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Synthesis of Bioactive Scaffolds
Carbon-carbon and carbon-heteroatom bond-forming reactions are the backbone of synthetic organic chemistry. Scientists are constantly developing and improving these techniques in order to maximize the diversity of synthetically available molecules. These techniques must be developed in a sustainable manner in order to limit their environmental impact. This book highlights green bond forming reactions for bioactive scaffolds.
Supramolecular Chemistry
This introductory textbook on supramolecular chemistry is a thoroughly revised and expanded version of the 1st edition, originally published in 2020. All chapters have been brought up to date and now include "Further Reading" sections that highlight relevant developments. In addition, a new chapter on supramolecular polymers has been added. With these changes, this book provides an even more comprehensive introduction to the exciting field of supramolecular chemistry than before. Readers will learn what forces hold supramolecular architectures together, how supramolecular systems are created and characterized, how molecular switches, motors, transporters, catalysts, chemosensors, and other functional systems work, and where supramolecular chemistry can play or already plays a role in our lives. In 2022 the first edition of this book won the Literature Prize of the German Chemical Industry Association VCI. For the full press release (in German): https://www.vci.de/fonds/presse-und-infos/pressemitteilungen/preisgeld-fuer-supramolekuele.jsp
Rare Earth Elements
Over the years, the uses and applications of rare earth elements (REEs) diversified in various fields such as catalysis, production of magnets, glasses, alloys, and electronics. This book consists of fifteen chapters, which present recent advances and outlook on REEs and their oxides/salts in catalytic organic transformations, biomedical applications, bioremediation and environmental impacts.
Medicinal Inorganic Chemistry
The book is novel in many aspects in the field of Inorganic Medicinal Chemistry which is a less explored area. The salient feature include Theoretical drug designing using PASS, ADMET and Docking studies for organic ligands Hydroxytriazenes and their cobalt complexes. Alternative systems of medicine like Ayurveda , Zuotai and Chinese system. Role of metal complexes in medicine has been extensively reviewed and presented. Extremely useful book for students of Pharma. Medicinal chemistry and doctoral students of chemistry as well as allied branches.
Medicinal and Biological Inorganic Chemistry
The book provides a detailed state-of-the-art overview of inorganic chemistry applied to medicinal chemistry and biology. It covers the newly emerging field of metals in medicine and the future of medicinal inorganic chemistry. Further it includes metal based medicines used in alternative systems of Ayurveda as well as Tibetan Zuotai to make it a holistic approach. It is an essential reading for every researcher and student in medicinal and bioinorganic chemistry.
Organozinc Derivatives and Transition Metal Catalysts
Organozinc reagents are less reactive than Grignard reagents but they are much more chemoselective. Since the Negishi cross-coupling reaction developed by Ei-ichi Negishi, who was awarded the Nobel Price in chemistry in 2010, a number of cross-coupling reactions involving organozinc derivatives and transition metal catalysts (Pd, Ni, Fe, Co, Cu, ...) has been tuned up to form C-C bonds. This book on "Organozinc derivatives and transition metal catalysts" has been written by experts in the field and is a complement to the book entitled "Grignard reagents and transition metal catalysts" (a De Gruyter book, edited by J. Cossy). Grignard reagents or organozinc reagents, that is the question? From a given substrate, what is the best organometallic reagent and the best transition metal to form a C-C bond by using a cross-coupling reaction? The solution might be found in these two books.
Heterogeneous Catalysis
This textbook is a concise introduction to heterogeneous catalysis, focusing on the fundamentals and industrial implementation. It is written in a clear manner using language that is easily accessible to undergraduate students in chemical engineering and industrial chemistry. The textbook includes exercise problems and practice software. New in this edition are sections on catalyst preparation and manufacture, kinetic parameter estimation, and catalytic transport-line reactors. Solutions to all the example problems are now provided.
Tellurium Chemistry
Tellurium, a well-known chalcogen, finds potential applications in various fields from chemistry to other branches of science such as nanotechnology and macromolecular science. However, its safety must also be taken into consideration when exploring its industrial applications. This book explores the breadth of tellurium‘s applications, outlines strategies for industrial use, and describes the safety concerns of this element.
Organocatalysis
Organocatalysis are an important tool for greener catalytic processes due to the lack of precious metals used. This book explores different organocatalysts and their use in synthesis. Topics covered include zwitterionic imidazolium salt catalysts, asymmetric catalysts in aqueous media, beaker yeast catalysis, organocatalysts for Aldol and Michael reactions, amino acid-based organocatalysts, and Brönsted acidic surfactant organocatalysts.
Bioactive Three-Membered Heterocycles
Bioactive Three-Membered Heterocycles provides detailed information on the green synthesis of the structurally diverse pharmaceutically active three-membered heterocycles. It covers both synthesis and biological aspects and highlights the role of three-membered heterocycles in drugs and drug designing. It also includes naturally occurring bioactive three-membered heterocycles.
