This note covers the following topics: Structure and bonding, Acid-base, Organic compounds, Alkenes, Reactions of alkenes, Stereochemistry , Alkynes, Delocalization, Substitution Reactions, Elimination Reactions, Reactions of alcohols, Organometallic compounds.
Author(s): Seoul National University
The aim of this note is to give you a general introduction to organic chemistry, giving explanations to observed physical and chemical properties of organic compounds. Topics covered includes: Bonding, Functional Group Classification And Nomenclature, Alkanes, Alkenes, Alkynes.
Author(s): National Open University of Nigeria
This site contains interactive 3D animations for some of the most important organic reactions covered during an undergraduate degree. Each page contains some information about the reaction, followed by an interactive reaction scheme similar to the one below.
Author(s): The University of Liverpool
This note covers the following topics: Pericyclic Reactions, Cycloaddition Reactions, Reactive Dienophiles, Reactive Dienes, Electrocyclic Reactions, Synthetic Strategy, Metal-Catalyzed Couplings, Synthetic Polymers, Carbohydrates or erpines, Terpines, Alkaloids, Carbohydrates, Peptides and Proteins, Nucleotides and Nucleic Acids, Synthetic Polymers, Amino Acids and Peptides.
Author(s): Prof. Kim, Young Gyu
The major emphasis of this note is on structure determination by way of interpreting the data that each method provides. Topics covered includes: modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR.
Author(s): Dr. Jeff Simpson and Prof. Timothy F. Jamison
This book will help the reader to develop a deeper understanding about the concepts related to cellulose and the nanocellulose structure, modification, production, dissolution, and application. This book will serve as the starting point for materials science researchers, engineers, and technologists from diverse backgrounds in physics, chemistry, biology, materials science, and engineering who want to know and better understand the unique characteristics of the most abundant biopolymer on earth.
Author(s): Matheus Poletto and Heitor Luiz Ornaghi Junior
In this note the basics of enediyne class of natural and designed antitumor antibiotics, their history of discovery, novel biological activity, and their medicinal application will be focused. Also this note will describe the history of discovery of enediyne class of natural products, their molecular architechture, mode of biological action and the key chemistry behind their potent DNA cleaving activity.
The principles and their application for the synthesis of some of the naturally occurring compounds will be described in this note. Major topics covered includes: Formation of Aliphatic Carbon-Carbon Bonds: Base Catalyzed Reactions and Acid Catalyzed Reactions, Organometallic Reagents, Nucleophilic Aromatic Substitution, Aromatic Diazonium Salts, Molecular Rearrangements, eagents Containing Phosphorus, Sulfur, Silicon, Boron or Tin, Transition Metal Catalysis and The Synthesis of Some Naturally Occurring Compounds.
This note is an intensive, comprehensive introduction to the chemistry of carbon and its importance to biological molecules. Topics include current ideas of bonding and structure, major reaction mechanisms and pathways, a discussion of the analytical tools used to determine the structure and stereochemistry of organic compounds and some of the chemistry of amino acids, peptides, carbohydrates, and nucleic acids.
Author(s): Harvard Summer School
This note is designed to provide a unified overview of fundamental organic chemistry for science majors. Students who successfully complete the reading of this note acquire an integrated understanding of molecular architecture, molecular transformations, reaction energetics and mechanisms, synthetic strategy, and structure determination.
Author(s): Michael C. Biewer
In this note, the basics in Bioorganic Chemistry, its inception and its today’s platform will be focused. This note will describe the historical connection between organic chemistry, physical chemistry and biology in its introductory part. Slowly it will provide an overview of amino acids, peptides and their recent advances; enzyme chemistry; nucleic acids- from the basic to the recent research trend toward gene detection technology and drug discovery.
This book explains the following topics: Structural Organic Chemistry, The Shapes Of Molecules, Functional Groups, Organic Nomenclature, Alkanes, Bonding In Organic Molecules- Atomic-orbital Models, Nucleophilic Substitution And Elimination Reactions, Separation and Purification- Identification Of Organic Compounds by Spectroscopic Techniques, Polyfunctional Compounds, Organohalogen and Organometallic Compounds, Aromat Compounds, Spectroscopy, Photochemistry, Polymers, Alcohols and Ethers.
Author(s): Roberts, John D. and Caserio, Marjorie C
This book covers the following topics: Purification Of Solids and Liquids, Analysis Of Organic Compounds, Empirical and Molecular Formula, Classification, Aliphatic Compounds, Paraffins, Or Saturated Hydrocarbons, Halogen Derivatives Of The Paraffins, The Alcohols, Sulphur Compounds, The Cyanogen Compounds, Derivatives Of The Unsaturated, The Polyhydric Alcohols, Aromatic Compounds, The Terpenes and Camphors, Multinuclear Hydrocarbons and Their Derivatives, Heterocyclic Compounds and the Alkaloids.
Author(s): Julius B Cohen
The aim of this book is to provide a general overview of new progress of the hydrogenation reactions. This volume comprises a series of various contributions, as reviews or original articles, treating heterogeneously and homogeneously catalyzed hydrogenation reactions.
Author(s): Iyad Karame
This book covers the following topics: Nomenclature Of Organic Compounds, Parent Hydrides, Characteristic (functional) Groups, Rules For Name Construction, Constructing Preferred IUPAC Names, Applications To Specific Classes Of Compounds, Radicals, Ions, And Related Species, Isotopically Modified Compounds, Arent Structures for Natural Products and Related Compounds.
Author(s): Dr. Jozsef Nagy
This note covers the following topics in organic chemistry: structure, nomenclature, reactions, reaction mechanisms, and synthesis of carbon compounds that contain oxygen and nitrogen.
Author(s): Dr. Craig P. Jasperse
This note covers the following topics: Foundations, Reactions, Mechanisms, Multiple Bonds, Conjugation, Electronic Effects, Carbonyl Groups, Carbonyl and Pericyclic Reactions and Mechanisms and Bioorganic Compounds.
Author(s): Robert C. Neuman
The primary guiding and unifying principle of the book is the structural theory in its broadest sense. This one theory underlies the whole of organic chemistry; its different aspects are discussed in the various chapters.
Author(s): George Willard Wheland
This note covers the following topics: structure determines properties, hydrocarbon frameworks alkanes, conformations of alkanes and cyclo alkanes, alcohols and alkyl halides, structure and preparation of alkenes elimination reactions, reactions of alkenes addition reactions, stereochemistry, nucleophilic substitution, alkynes, conjugation in alkadienes and allylic systems, arenes and aromaticity, reactions of arenes electrophilic aromatic substitution, spectroscopy, organometallic compounds, alcohols Diols and Thiols, ethers epoxides and sulfides, aldehydes and ketones nucleophilic addition to C=O, Enols and Enolates, carboxylic acids, carboxylic acid derivatives nucleophilic acyl substitution, ester enolates, amines, aryl halides, phenols, carbohydrates, lipids, amino acids peptides and proteins, nucleosides nucleotides and nucleic acids.
This note covers the following topics: functional groups, introduction and review, ionic substitution SN2, nomenclature, conformations of acyclic molecules, stereochemistry, introduction to aromaticity, addition to carbon- carbon pi bonds, electrophilic aromatic substitution, conformations of cyclic molecules, carbohydrates, radicals, infrared spectroscopy, carbonyl chemistry- reactions and mechanisms, hnmr spectroscopy, enolates enols and enamines, C-NMR,2D-NMR and MRI, organic chemistry of pharmaceuticals, solving spectroscopy problems , drug development discovery to market, xray diffraction, noncovalent molecular forces.
Author(s): Steve Hardinger
This note covers the following topics: UV or IR spectroscopy, molecular formulas, introduction to nmr spectroscopy, proton nmr chemical shifts, symmetry and nmr, proton-proton coupling, carbon13 nmr, aldehydes or ketones, carboxylic acids and derivatives, retrosynthesis , enolates, aromatics, amines, pericyclic reactions.
Author(s): Prof. Rob Batey
This note covers the following topics: Structure Bonding, Intermolecular Forces, Chemical Reactivity, Aromaticity, Nomenclature, Stereoisomers, Alkanes, Alkenes, Alkynes, Alkyl Halides, Alcohols, Ethers, Benzene and Derivatives, Amines, Aldehydes and Ketones, Carboxylic Acids and Carboxylic Derivatives.
Author(s): William Reusch
This note covers the following topics: Aliphatic Compounds, Hydrocarbons, Alcohols, Aldehydes And Ketones, Acids, Esters, Ethers, Alkyl Halides And Other Halogenated Aliphatic Compounds, Simple Compounds Containing Nitrogen, Cyclic Aliphatic Compounds, Mercaptans Or Thioalcohols, Aromatic Compounds, Hydrocarbons and Phenols.
This book covers the following topics: Structural Organic Chemistry. The Shapes Of Molecules. Functional Groups, Organic Nomenclature, Alkanes, Stereoisomerism Of Organic Molecules, Nucleqphilic Substitution And Elimination Reactions, Alkenes And Alkynes, Cycloalkanes, Cycloalkenes, And Cycloalkynes.
Author(s): John D.Roberts and Marjorie C Caserio
This lecture note introduces the hierarchy of computational modelling methods used nowadays as standard tools by organic chemists for searching for, rationalising and predicting structure and reactivity of organic, bio-organic and organometallic molecules.
Author(s): Henry Rzepa
This book covers the following topics related to Organic Nomenclature: IUPAC Systematic Approach to Nomenclature, The Alkanes, Functional Groups with Prefixes Only, Functional Groups with Suffixes Only, Functional Groups with Suffix and Prefix, Aromatics, Stereochemistry (iii) Chirality and Heterocyclics.
Author(s): Dave Woodcock
This note covers the following topics: Free radical reactions, Electrophilic addition reactions, Electrophilic substitution reactions, Elimination reactions, Nucleophilic addition reactions, Nucleophilic addition / elimination reactions.
Author(s): Jim Clark
This note covers the following topics: Bonding in organic compounds, Organic chemistry conventions, Isomerism in organic compounds, Organic acids and bases.
Author(s): Jim Clark
This note covers the following topics: Aliphatic compounds, alkanes, alkenes, alcohols, aldehydes and ketones, carboxylic acids, acyl chlorides Aromatic compounds, arenes, aryl halides, phenol, phenylamine.
Author(s): Jim Clark
This note covers the following topics: Diels-Alder reaction, Introduction to organic synthesis, Theory and Swager Centric applications.
Author(s): Prof. Rick Danheiser and Prof. Timothy Swager
This lecture note is an introduction to organic chemistry, focusing primarily on the basic principles to understand the structure and reactivity of organic molecules. Major topics covered are: Resonance, Molecular Orbital Theory, Hybridization, Cycloalkanes, Cyclohexane, Stereochemistry, Free Radical Reactions, Structure and Synthesis of Alkenes.
Author(s): Dr. Sarah Tabacco and Prof. Barbara Imperiali
This note deals primarily with the basic principles to understand the structure and reactivity of organic molecules. Major topics covered are: Molecular Structure, Resonance, Acidity and Basicity, Alkanes and Isomerism, Stereochemistry, Reactions of Alkynes, Alkyl Halides, Alcohols and Phenols and Carbonyl Chemistry.
Author(s): Dr. Kimberly Berkowski and Prof. Sarah O’Connor
This organic chemistry course note focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Major topics covered are: Molecular Formula and Index of Hydrogen Deficiency, Functional Groups, Ethers, Epoxides, and Sulfides, Pericyclic Reactions, Amines, Carboxylic Acids and Derivatives, Enols and Enolates.
Author(s): Dr. Sarah Tabacco and Prof. Timothy F. Jamison
This lecture note focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds.
Author(s): Dr. Kimberly Berkowski and Prof. Timothy F. Jamison
This note covers the following topics: Stereochemistry, Elucidating reaction mechanisms, Free radical reactions, Photochemistry, Carbenes and Total synthesis.
Author(s): Prof. Mohammad Movassaghi
This note covers the following topics: The importance of chemical principles, Hydrogen atom energy levels, Wave-particle duality of light, Periodic trends, Molecular orbital theory, Electrochemical cells, Metals in biology, Free energy and control of spontaneity.
Author(s): Prof. Catherine Drennan and Dr. Elizabeth Vogel Taylor
This note covers the following topics: The Nature of the Chemical Bond, Molecular Structure, Mechanisms of Organic Reactions, Selected Classes of Organic Compounds.
Author(s): Ecole polytechnique federale de Lausanne