Reactive Intermediates in Organic Chemistry
eBook - ePub

Reactive Intermediates in Organic Chemistry

Structure, Mechanism, and Reactions

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eBook - ePub

Reactive Intermediates in Organic Chemistry

Structure, Mechanism, and Reactions

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About This Book

Most reactions in organic chemistry do not proceed in a single step but rather take several steps to yield the desired product. In the course of these multi-step reaction sequences, short-lived intermediates can be generated that quickly convert into other intermediates, reactants, products or side products. As these intermediates are highly reactive, they cannot usually be isolated, but their existence and structure can be proved by theoretical and experimental methods. Using the information obtained, researchers can better understand the underlying reaction mechanism of a certain organic transformation and thus develop novel strategies for efficient organic synthesis. The chapters are clearly structured and are arranged according to the type of intermediate, providing information on the formation, characterization, stereochemistry, stability, and reactivity of the intermediates. Additionally, representative examples and a problem section with different levels of difficulty are included for self-testing the newly acquired knowledge. By providing a deeper understanding of the underlying concepts, this is a musthave reference for PhD and Master Students in organic chemistry, as well as a valuable source of information for chemists in academia and industry working in the field. It is also ideal as primary or supplementary reading for courses on organic chemistry, physical organic chemistry or analytical chemistry.

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Yes, you can access Reactive Intermediates in Organic Chemistry by Maya Shankar Singh in PDF and/or ePUB format, as well as other popular books in Physical Sciences & Organic Chemistry. We have over one million books available in our catalogue for you to explore.

Information

Publisher
Wiley-VCH
Year
2014
ISBN
9783527678273
Edition
1
Topic
Physical Sciences
Subtopic
Organic Chemistry

Chapter 1
Introduction

Chemistry is an old science that influences every aspect of life on earth (from toothpaste to life-saving medicines) because just about everything that we can touch and feel is made of chemicals, which is why it is known as the mother science or central science. The chemical cornucopia (a hollow basket filled with various kinds of festive materials) is truly impressive. While chemistry is, indeed, an old subject (∼1000 BC), modern chemistry (Antoine-Laurent de Lavoisier (1743–1794), the “Father of modern chemistry”) is ∼230 years old, while organic synthesis is only about 150 years old. The essential feature of this central science is synthesis. The chemist who designs and completes an original and aesthetically pleasing synthesis is like the composer, artist, or poet, who with great individuality fashions new forms of beauty from the interplay of mind and spirit.
Chemistry occupies a unique middle position between physics and mathematics on the one side and biology, ecology, sociology, and economics on the other. It is said that chemistry is reducible into physics and finally mathematics. On the one hand, it deals with biology and provides explanations for how molecules determine the processes of life. On the other hand, it mingles with physics as well as mathematics, and finds explanations for chemical phenomena in the fundamental processes and particles of the universe:
“The greatest scientific advance of the last 50 years is the way biology is becoming a molecular science (chemistry)…”
Chemistry is playing a vital role in every area of our increasingly technological society that links the familiar with the fundamental.
Like all sciences, chemistry has a unique place in our pattern of understanding of the universe. It is the science of molecules, but organic chemistry is something more, that is, a tentative attempt to understand the chemistry of life. The task of the organic chemist is to make tools (molecules), that is, the art and science of constructing the molecules of nature available for various uses. Essentially all chemical reactions that take place in living systems, including in our own bodies, are organic reactions because the molecules of life – proteins, enzymes, vitamins, lipids, carbohydrates, and nucleic acids – all are organic compounds. All things originating from living things are organic but anything containing carbon is also organic. The food we eat, the wood to make our homes, the clothing we wear (whether natural cotton or polyester), gasoline, rubber, plastics, medicines, pesticides, herbicides, all are made from organic compounds. We can thank organic chemistry for making our life easier in the modern age, and furthermore a responsibility lies on the shoulders of synthetic organic chemists to make life even better.
Chemistry is a vibrant subject filled with light, colors, fragrance, flavors, action, and excitement; a subject that begs to be taught by the points of inquiry method. When you picked up this book, your muscles were performing chemical reactions on sugars to give you the energy you required. As you go through this book, your eyes are using an organic compound (11-cis-retinal) to switch visible light into nerve impulses. Gaps between your brain cells are being bridged by simple organic molecules (neurotransmitter amines) so that nerve impulses can be passed around your brain. Organic chemistry often studies life by making new molecules that give information not available from the molecules actually present in living things. Whether one seeks to understand nature or to create the new materials and medicines of the future, a key starting point is thus to understand structure and mechanism. Organic chemistry has always been, and continues to be, the branch of chemistry that best connects structure with properties.
To understand organic chemistry one must be familiar with two languages. One is the structure and representation of molecules. The second is the description of the reaction mechanism in terms of curly arrows. The first is static and the second dynamic. Synthesis is considered difficult because you need to have a grasp of lots of reactions. Well, if you have an understanding of simple basic organic chemistry plus a few special “tools” you can do a surprising amount and enjoy the challenge. A detailed understanding of reactive intermediates is at the heart of chemical transformations, and thus of modern synthetic chemistry. The term reactive further implies a certain degree of instability of the species. Reactive intermediates are typically isolable only under special conditions, and most of the information regarding the structure and properties of reactive intermediates comes from indirect experimental evidence. Reaction mechanisms are a fundamental and most important part of organic chemistry, telling us about the interaction between electron-deficient and electron-rich species. The functional group is the site of reactivity in a molecule. By looking at the structure of the functional group, it is possible to predict the kind of reactions it will undergo.
A chemical reaction at the molecular level is an event in which two molecules collide in such a way as to break one or more of their bonds and make one or more new bonds, and hence new molecules. The sequence and timing of the bond-breaking and bond-making processes will be important to our understandings of the reactions. To find out how molecules react with each other and how to predict their reactions we need to know the reaction mechanism. Organic chemistry encompasses a very large number of compounds (many millions). To recognize these actors (compounds), we turn to the roles they are inclined to play in the scientific drama staged by the multitude of chemical reactions that define organic chemistry. We begin by defining some basic terms that will be used very frequently as this subject is elaborated:
  1. Chemical reaction: A chemical reaction is a process that leads to the transformation of one set of chemical substances into another. Classically, chemical reactions encompass changes that strictly involve the motion of electrons in the forming and breaking of chemical bonds between atoms, and can often be described by a chemical equation. A transformation results in the change of composition, constitution, and/or configuration of a compound (referred to as the reactant or substrate) by making or breaking of carbon–carbon (C–C), carbon–hydrogen (C–H), and/or carbon–heteroatom (C–X) bond(s). Chemical reactions are described with chemical equations, which graphically present the starting materials, end products, and sometimes intermediate products and reaction conditions.
  2. Reactant or substrate: The starting material undergoing change in a chemical reaction. Other compounds may also be involved, and common reactive partners (reagents) may be identified. The reactant is often (but not always) the larger and more complex molecule in the reacting system. Most (or all) of the reactant molecule is normally incorporated as part of the product molecule.
  3. Reagent: A common partner of the reactant in many chemical reactions. It may be organic or inorganic, small or large, or gas, liquid,...

Table of contents

  1. Cover
  2. Table of Contents
  3. Related Titles
  4. Title
  5. The Author
  6. Copyright
  7. Preface
  8. Chapter 1: Introduction
  9. Chapter 2: Carbocations
  10. Chapter 3: Carbanions
  11. Chapter 4: Radicals
  12. Chapter 5: Carbenes
  13. Chapter 6: Nitrenes
  14. Chapter 7: Miscellaneous Intermediates
  15. Index
  16. End User License Agreement