II. Main types of organometallic compounds

... octet rule: The octet rule is a chemical rule of thumb that states that atoms of main-group elements tend to combine in such a way that each atom has eight electrons in its valence shell, the same electronic configuration as a noble gas. The rule is especially applicable to carbon, nitrogen, oxygen, ...

3-MO theory(U).pptx

1 Chapter 21: Organic and Biochemical Molecules

... Include the number indicating the substituents placement in front of the name of the substituent. If there is only one double bond then the number 1 does not need to be included prior to the core name because the position of the double bond is implied. If there is only 1 substituent and no double bo ...

Definition: the term “alkaloid” (alkali

... ¾ This is mainly used to establish the class and/or structural type to which the alkaloid being investigated belongs. Such assignments are made because ultraviolet spectrum of a compound is not a characteristic of the whole molecule but only of the chromophoric system(s) present. ¾ The usual pr ...

p-BLOCK ELEMENTS - einstein classes

Hybridization of atomic orbitals

... The Simulation of Electron Density The simulation of electron density and showing orbitals is very well done in The following program is no longer available, but the description is left here to you to used when you look at the above simulation The computer plots of cross section of electron clouds f ...

102 Lecture Ch15

... - the right hand is the mirror image of the left hand - no matter how you turn them, they can’t be superimposed • Many organic compounds are also chiral - most biomolecules (amino acids, sugars, etc.) are chiral and usually only one of the stereoisomers is used • In order for a carbon in an organic ...

Section 3.5 Ionic Compounds: Formulas and Names

... Molecular Compounds: Formulas and Names Solution • The compound NCl3 is nitrogen trichloride , but AlCl3 is just aluminum chloride. Why? • NCl3 is a covalent (molecular compound). Since nitrogen and chlorine can combine more than one way it is necessary to indicate the number of chlorines. • AlCl3 i ...

Preparation and Physical Properties of Chitosan Benzoic Acid

Sequential nonadiabatic excitation of large molecules and ions

CHEMISTRY 314-01 MIDTERM # 1 – answer key February 10, 2009

CARBANIONS Carbanions are units that contain a negative charge

... weakly basic medium. Most organic compounds are much less acidic than carboxylic acids, and thus need stronger basic medium to ionize a carbon-hydrogen bond. Because of the high electronegativity of a fluorine atom, fluorinated compounds are always more acidic than non-fluorinated compounds. Fluorin ...

ENGLISH VERSION Exam Organic Chemistry 2

Effect of N-donor ancillary ligands on structural and magnetic

... advances have been made in understanding the factors that influence network topology.‡ However, the rational control in the construction of polymeric networks remains a great challenge in crystal engineering and much more work is required to extend our knowledge of cooperative interactions between m ...

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... • Ethers cannot hydrogen-‐bond with other ether molecules. • Molecules that cannot hydrogen-‐bond intermolecularly have a lower boiling point. • Ether molecules can hydrogen-‐bond with water and alcohol ...

Chapter 4 – Carbon and the Molecular Diversity of Life

... The organic molecules on the right as well as methane are all hydrocarbons. A HYDROCARBON is any molecule made of ONLY hydrogen and carbon. ...

ch04 - alkanes

ppt

... 24.2: Structure and Bonding (please read) 24.3: Physical Properties (please read). Like other alcohols the OH group of phenols cab participate in hydrogen bonding with other phenol molecules and to water. 24.4: Acidity of Phenols. Phenols are more acidic than aliphatic alcohols pKa ~ 16 H3CH2C O H ...

asymmetric alkyne addition to aldehydes

... Chiral propargylic alcohols are important compounds, as this structural motif is often found in pharmaceutical compounds as well as natural products and can also serve as versatile synthetic intermediates.1 Although there are many methods available for the preparation of these compounds (e.g. asymme ...

CHAPTER 29 Organic chemicals

... (E) Halides of carboxylic acids are to be classified in the same heading as the corresponding acids. ...

Formal Charge - drseemaljelani

2006_World of Chemis..

Organic Isomers - Winston Knoll Collegiate

... ln the case of positional and hydrocarbon chain isomers, the functional group which usually dictates the reactivity of the molecule, is unchanged therefore they have quite similar chemical properties. With functional group isomerism, the change in the functional group can have a profound effect on b ...

Chapter 4 Stereochemistry and Chirality Flow chart for determining

E Reprint 212 - Trade Science Inc

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Aromaticity

In organic chemistry, the term aromaticity is formally used to describe an unusually stable nature of some flat rings of atoms. These structures contain a number of double bonds that interact with each other according to certain rules. As a result of their being so stable, such rings tend to form easily, and once formed, tend to be difficult to break in chemical reactions. Since one of the most commonly encountered aromatic system of compounds in organic chemistry is based on derivatives of the prototypical aromatic compound benzene (common in petroleum), the word “aromatic” is occasionally used to refer informally to benzene derivatives, and this is how it was first defined. Nevertheless, many non-benzene aromatic compounds exist. In living organisms, for example, the most common aromatic rings are the double-ringed bases in RNA and DNA.The earliest use of the term “aromatic” was in an article by August Wilhelm Hofmann in 1855. Hofmann used the term for a class of benzene compounds, many of which do have odors (unlike pure saturated hydrocarbons). Today, there is no general relationship between aromaticity as a chemical property and the olfactory properties of such compounds, although in 1855, before the structure of benzene or organic compounds was understood, chemists like Hofmann were beginning to understand that odiferous molecules from plants, such as terpenes, had chemical properties we recognize today are similar to unsaturated petroleum hydrocarbons like benzene.In terms of the electronic nature of the molecule, aromaticity describes the way a conjugated ring of unsaturated bonds, lone pairs of electrons, or empty molecular orbitals exhibit a stabilization stronger than would be expected by the stabilization of conjugation alone. Aromaticity can be considered a manifestation of cyclic delocalization and of resonance. This is usually considered to be because electrons are free to cycle around circular arrangements of atoms that are alternately single- and double-bonded to one another. These bonds may be seen as a hybrid of a single bond and a double bond, each bond in the ring identical to every other. This commonly seen model of aromatic rings, namely the idea that benzene was formed from a six-membered carbon ring with alternating single and double bonds (cyclohexatriene), was developed by August Kekulé (see History section below). The model for benzene consists of two resonance forms, which corresponds to the double and single bonds superimposing to produce six one-and-a-half bonds. Benzene is a more stable molecule than would be expected without accounting for charge delocalization.

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Aromaticity