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For the textbook, chapter, and section you specified we found
4 Assessment Questions
1 Molecular Structures
8 Journal Articles
1 Other Resources
Assessment Questions: First 3 results
Alpha Beta Unsaturated Ketones and Aldehydes (13 Variations)
A collection of 13 assessment questions about Alpha Beta Unsaturated Ketones and Aldehydes
Aldehydes / Ketones |
Organometallics |
Stereochemistry |
Esters
Synthesis (11 Variations)
A collection of 11 assessment questions about Synthesis
Aldehydes / Ketones |
Synthesis |
Esters |
Oxidation / Reduction |
Alkynes |
Organometallics |
Alcohols |
Electrophilic Substitution
Alcohols and Ethers (22 Variations)
A collection of 22 assessment questions about Alcohols and Ethers
Alcohols |
Synthesis |
Oxidation / Reduction |
Aldehydes / Ketones |
Alkenes |
Carboxylic Acids |
Grignard Reagents |
Ethers |
Reactions |
Mechanisms of Reactions |
Organometallics |
Nomenclature / Units / Symbols |
Physical Properties
View all 4 results
Molecular Structures: 1 results
Carbon Monoxide CO

3D Structure

Link to PubChem

VSEPR Theory |
Gases |
Toxicology |
Atmospheric Chemistry |
Bioinorganic Chemistry |
Biosignaling |
Organometallics

Journal Articles: First 3 results.
Pedagogies:
A Convenient Method for Dispensing Organometallic Reagents  Thomas A. Newton
The construction of a simple apparatus for dispensing air-sensitive organometallic reagents is described.
Newton, Thomas A. J. Chem. Educ. 2005, 82, 936.
Organometallics |
Instrumental Methods |
Synthesis
Synthesis and Use of Jacobsen's Catalyst: Enantioselective Epoxidation in the Introductory Organic Laboratory  John Hanson
Laboratory series to introduce students to an important synthetic method and many common techniques used in running reactions, purifying products, and characterizing compounds.
Hanson, John. J. Chem. Educ. 2001, 78, 1266.
Catalysis |
Chirality / Optical Activity |
Synthesis |
Organometallics |
Stereochemistry |
Epoxides |
Enantiomers |
Aromatic Compounds
Determination of the Regiochemistry of Disubstituted Arenes Generated by Addition of a Carbanion to the (h6-Anisole)Cr(CO)3 Complex  Ashfaq A. Bengali, Cindy Samet, and Samantha B. Charlton
A laboratory activity that integrates fundamental concepts of organic and organometallic chemistry and then employs standard instrumental techniques (GC) and molecular modeling to justify the results.
Bengali, Ashfaq A.; Samet, Cindy; Charlton, Samantha B. J. Chem. Educ. 2001, 78, 68.
Aromatic Compounds |
Synthesis |
Organometallics |
Gas Chromatography |
Molecular Modeling
View all 8 articles
Other Resources: 1 results
Molecular Models of Ruthenium(II) Organometallic Complexes  William F. Coleman
The featured molecules for this month come from the paper "Experiments in Thermodynamics and Kinetics of Phosphine Substitution in (p-Cymene)RuCl2(PR3)" by Ozerov, Moura, and Hoffman in which they study the reactions of a number of "piano stool" complexes of ruthenium(II). The synthesis of compound 2a offers students an alternative to the preparation of ferrocene if they are only preparing one metal-arene complex, and the use of the (p-cymene)RuCl2 dimer as a starting material introduces them to a compound that has become important for the synthesis of a number of ruthenium catalysts. Two structures are found for the dimer in the gas phase, one with the chlorides cis to one another and a more stable form with the chlorides trans. DFT calculations using the LanL2MB basis set and the B3LYP functional in Gaussian 03 (1) show the trans form to be about 90 kJ/mol more stable than the cis form. The structures of the trans form of the dimer and of compound 2a are presented in 2 formats with bonds from the ruthenium ion to all of the carbons in the aryl ring and with a single line to a ghost atom in the center of the ring. These are the two common ways of representing such structures but students should be made aware that the overall coordination about the ruthenium in both the dimer and in compound 2a is octahedral, and should look at the structures to convince themselves of that fact. It is also instructive to look at compound 2a, and the other piano stool complexes that are made in the paper, to see how deceptive representation of the triphenylphosphine moiety as PR3 is in terms of the stereochemical bulk of that group.
Organometallics