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 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.
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.
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.
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.
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 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.
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