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 presentation covers topics as follows : Chemistry of living
things, What is Organic Chemistry, Organic Molecules Make up, Aspects of Organic
Molecules, Carbon Atoms form organic molecule, What makes Carbon so special,
Types of Carbon bonds, Types of Carbon Backbone, Chain Isomerism, Positional
Isomers, Functional Group Isomers.
Author(s): College of Applied Medical Science, Karbala
In this book, special emphasis is given to the synthesis of
various bioactive heterocycles. Careful selection of various topics in this book
will serve the rightful purpose for the chemistry community and the industrial
houses at all levels.
This note covers the following topics: Atomic Structure, Chemical
Bonding, Chemical Structure: Lewis structure, resonance and hybridization, Polar
covalent bonds: electronegativity, dipole moment, Intramolecular and
Intermolecular Forces of attractions in Organic Molecules, Types of Organic
Reactions, Basic Concepts of Organic Reaction Mechanisms, Alkanes:
Nomenclature, Structural Isomers, Conformational Isomers and Reaction,
Cycloalkanes: Nomenclature, Conformational Analysis and Reactions,
This note covers the following
topics: Bonding and Molecular Structure, Families of Carbon Compounds, Organic
Reactions and Their Mechanisms, Nomenclature and Conformations of Alkanes and
Cycloalkanes, Stereochemistry, Ionic Reactions, Alkenes and Alkynes, Alcohols
and Ethers, 0 Alcohols from Carbonyl Compounds.
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
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.
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.
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 note covers the following topics: Foundations, Reactions,
Mechanisms, Multiple Bonds, Conjugation, Electronic Effects, Carbonyl Groups,
Carbonyl and Pericyclic Reactions and Mechanisms and Bioorganic Compounds.