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This book surveys the relatively new area of the synthesis of organic ligands when metal ions act as a template. In the last fifty years this field has undergone an explosive development, marked by a great amount of literature. The material in the book has been arranged according to the type of chemical reaction involved. In this frame, the basic principles of metal template reactions and the shape of the molecules are considered. Designed to satisfy the demands of students, young researchers doing their PhDs, and those working in the field of coordination chemistry, the book details the role of the metal ions and the specific properties of the formed complexes. Metal Mediated Template Synthesis of Ligands offers a comprehensive analysis with wide-ranging references and provides an extensive overview of research on metal-directed organic ligands over the past five decades. Contents: The Template Effect; Alkylation Reactions; Schiff Condensation; Mannich Condensation; Self Condensation of Nitriles; Self-Assembled Systems. Readership: Upper level undergraduates, graduate students, academics, researchers industrialists in inorganic, solid-state, supramolecular and organic chemistry.
Scientific Study from the year 2018 in the subject Chemistry - Anorganic Chemistry, grade: 10, , language: English, abstract: Nanoscience is the study of phenomena exhibited by materials at atomic, molecular and macromolecular levels, of dimensions ranging from a few nanometres to less than a hundred nanometres. In chemistry, this size range has been associated with colloids, micelles, polymer molecules and similar structures. In physical and electrical engineering, nanoscience is often associated with quantum behaviour, and electron behaviour in nanoscale structures. The area of research in the field of nanotechnology is as diverse as physics, chemistry, material science, microbiology, biochemistry and also molecular biology. The interface of nanotechnology in combination with biotechnology and biomedical engineering has emerged with the use of nanoscale structures in diagnosis, gene sequencing, and drug delivery. Nanoparticles have attracted great interest in recent years because of their unique chemical and physical properties, which are different from those of either the bulk materials or single atoms. Nanostructure materials have potential applications in ceramics, optoelectronics and catalysis. Research on the synthesis of nanomaterials using metal complexes as precursors have been less reported. Application of metal complexes as precursors may be helpful to control the physical properties of metal nanoparticles. In the last few years, researchers have characterized the tunable properties by altering the nanostructure size, shape, and chemical composition and have developed reproducible strategies to make nanostructures of desired properties. It has been already proved that by controlling the size of the particle and manipulating surface structures of the semiconductor materials, the electronic, magnetic, mechanical, and chemical properties can be modified to suit a wide range of device application in many fields. The present book deals with the synthesis of Schiff base complexes of Cd(II), Zn(II) and Hg(II) with different sulphur containing ligand and preparation of metal sulphide nanoparticle by the thermal decomposition of complex precursor. During this academic journey four new sulphur containing ligands and their thirty complexes were synthesized. These ligands and complexes were characterized by spectroscopic methods like UV-Vis, FT-IR, 1H-NMR, 13C-NMR, 2D-NMR, FAB-MS / ESI-Ms spectra.
According to R.H. Crabtree, Metal Dihydrogen and sigma-Bond Complexes is described as `the definitive account of twentieth-century work in the area of sigma complexation'. It covers not only Kubas' discovery of dihydrogen coordination and the study of its structure and general properties but also discusses both the theoretical beliefs and experimental results of bonding and activation of dihydrogen on metal centers and the coordination and activation of C-H, B-H, X-H, and X-Y bonds, giving an overview of `one of the hottest areas in chemistry'.
A compilation of recent advances and applications in asymmetric catalysis The field of asymmetric catalysis has grown rapidly and plays a key role in drug discovery and pharmaceuticals. New Frontiers in Asymmetric Catalysis gives readers a fundamental understanding of the concepts and applications of asymmetric catalysis reactions and discusses the latest developments and findings. With contributions from preeminent scientists in their respective fields, it covers: * "Rational" ligand design, which is critically dependent on the reaction type (reduction, oxidation, and C-C bond formation) * Recent findings on activation of C-H bonds, C-C bonds, and small molecules (C=O, HCN, RN=C, and CO2) and the latest developments on C-C bond reorganization, such as metathesis * Advances in "chirally economical" non-linear phenomena, racemic catalysis, and autocatalysis * Some of the recent discoveries that have led to a renaissance in the field of organocatalysis, including the development of chiral Brönstead acids and Lewis acidic metals bearing the conjugate base of the Brönstead acids as the ligands and the chiral bi-functional acid/base catalysts The book ends with a thought-provoking perspective on the future of asymmetric catalysis that addresses both the challenges and the unlimited potential in this burgeoning field. This is an authoritative, up-to-date reference for organic chemists in academia, government, and industries, including pharmaceuticals, biotech, fine chemicals, polymers, and agriculture. It is also an excellent textbook for graduate students studying advanced organic chemistry or chemical synthesis.
Advancesin chemical and biological sciences are together contributing as organic molecules by the natural or synthetic sources with the research insight of scientific touch to make it as innovative ideas, process, protocols, products, and technologies for industrial applications. These conceptualapplications are useful to determine the next generation organic molecules againstcardiovascular, degenerative, infectious, neurological diseases with the valid dataneeded to prove its technical efficiency by the comparing standard drugs. Emerging any drugs from the origin of organic drugs are having more importance in the industries due to their efficacyand target to regulate or recover the health issues, these novel drugs may be inthe form of enzymes, metabolites, proteins, hormones or call it as biologicallyderived organic molecules. Most of the organic molecule findings are used toanalyze their hypotheses, mechanism of action, experimental design and theirbiological properties to derive functional aspects. To know these molecules structuralconfiguration various techniques and technology used and it is essential to becharacterizing the molecule by the chromatography, spectroscopy, etc., to confirmand further biological studies to know the properties. In this context this editedcomprehensive book brings the current innovation in the organic molecules withthe updates of various biological applications and covering the area of agriculture,biotechnology, microbiology, neutraceutics, nanotechnology, pharmacology, synthetic medicinal chemistry etc., based applicative research data to reviewed extensivelyin narrative loom. Highlights of the chapters are novel experimental protocol, methodology, techniques, study concepts, used advanced tools and statistical analysisfor the use of organic molecules to know their biological properties. The book possessing 9 chapters covering chemistry and biological investigations on theorganic molecules with the updated innovative findings, principles of the molecules,molecular targets, also interactions with cell lines, microorganisms and animalmodels which persuade remedial measures as preclinical and clinical studies. Book also focused on types of synthesis, advanced extractions, use of analyticaltools, purification schemes, characterization methods and data analytics.It is a designed as comprehensive reference book for all the grade &level of researchersto use it as experimental handbook or manual to work on the similar areas, it isalso useful for the creative scholars to obtain research experience and enhancethe skills by updating themselves as need of hour, also know the timely outbreaksto combat by such organic molecules as emerging drugs to be in a bio-innovationforum.
Annual Reports in Inorganic and General Syntheses-1972 presents an organized annual summary of synthetic developments in inorganic chemistry and its related areas. The book discusses alkali and alkaline earth elements, alloys, silver, gold, zinc, cadmium, mercury, boron, aluminum, gallium, indium, thallium, yttrium, scandium, lanthanides, actinides, titanium, zirconium, hafnium, Group V and VI transition elements, manganese, technetium, rhenium, iron, cobalt, nickel, ruthenium, osmium, rhodium, and iridium. The text also describes the chemistry of palladium, platinum, silicon, germanium, tin, lead, nitrogen, phosphorus, arsenic, antimony, bismuth, chalcogenides, fluorine, halogens, pseudohalogens, noble gases, and simple and complex metal hydrides of main groups I, I, and III. New techniques and reagents in synthetic coordination chemistry, as well as the stabilizing effects of large counter-ions are also encompassed. Chemists, chemistry students, and people working in chemical laboratories will find the book invaluable.