DISEÑO DE TECNICAS DE RECOLECCION DE INFORMACION

Electroanalytical Chemistry (423611):

The course includes several electroanalytical methods for chemical analysis. Examples of these are: Polarography, Developed methods of Polarography, anodic stripping voltammetry, differentiated pulse anodic stripping voltammetry, amperometry, circular voltammetry, cathodic stripping voltammetry .... etc.

Structural Techniques in Inorganic Chemistry (423621):

A core course entirely devoted to modern physical methods of inorganic structure analysis. Eamples are: diffraction methods, XPS & Auger spectra, thermal methods and microscopic methods. NMR spectra, vibrational spectra, ESR spectra and Mossbauer spectra are also included together with NQR and other techniques.

Organic Reaction Transformation (423631):

A lecture core course involving a rigorous treatment of organic reaction mechanisms. Reaction intermediates are treated rigorously. Free radicals and carbocations, including nonclassical ones, are discussed.

Molecular Spectroscopy (423641):

Using the language of group theory and quantum mechanics, the student is meticulously exposed to the origins and details of molecular spectra. The quantum mechanics of vibration, rotation, electronic and n.m.r spectra will be nigorously treated.

AdvancedEnvironmental Chemistry (423711):

This course includes the various topics of environmental chemistry such as water pollution, air pollution, soil pollution and plant and animal pollution.

Modern Techniques in Analytical Chemistry (423712):

This course deals with the modern analytical techniques which have not been covered in chem. 423611. Examples of these methods: x-ray fluorescence, ICP, FTIR, Ion Chromatography ... etc. together with of applications using these methods.

Seminar in Analytical Chemistry (423715):

This course is a series of lectures and seminars discussing the various topics of research in analytical chemistry. It is expected that the students will take the major burden, with the help of the instructor, of choosing the research topic, explaining several papers from the literature under this topic. The instructor then discusses the topic with the students and answers their questions.

Chemistry of Metals (423721):

An elective course dealing with advanced topics in chemistry of transition metals (particularly lanthanides and actinides) focusing on modern theories. Contemporary applications of metal element compounds are also involved. including advanced analytical techniques and kinetics.

Chemistry of NonMetals (423722):

An electric course devoted to nonmetal chemistry. Emphasis is devoted to certain elements e.g. B, N, F, Si, P, S. Pre- and post-transition metal chemistries, together with reaction kinetics and mechanisms are included.

Solid State & Semiconductor Chemistry (423723):

An elective course, entirely devoted to understand principles and applications of solid state chemistry. Physical techniques used in solid-state chemistry research are involved. Theories of bonding in semiconductors are included together with p-n junctions and solid/liquid interfaces. Current-voltage plots of semiconductors, including photo-currents and dark currents, and capacitance-voltage plots are treated. Applications of semiconductors to photovoltaics and to photoelectrochemical solar energy research are covered. Students are assumed to participate with term papers and class presentations.

Seminar in Inorganic Chemistry (423725):

An elective course that involves a number of seminars and discussions in modern subjects of inorganic chemistry. Students. with the help of the instructor chose their topics from relevant literature and present their topics before students and professors.

Physical Organic Chemistry (423731):

An elective course dealing with theoretical aspects of organic chemistry including bonding and structural aspects. Physical methods in organic molecule structure determination are also included.

Heterocyclic Chemistry (423732):

An elective course dealing with simple heterocyclic compounds such as those of O, P and S. Synthesis, reactivity and structural methods of analysis are involved. Derivatives of heterocyclic compounds are also discussed.

Chemistry of Macromolecules (423733):

An elective course dealing with organic macromolecules (natural and synthetic). The course is designed to include synthesis, chemical modification, and characterization of the polymeric materials with emphasis on those with commercial value.

Statistical Thermodynamics (423741):

This course is a bridge between the microquantum mechanics and the macrolevol of classical thermodynamics. The following topics will be dealt with:

1. Maxwell Boltzman statistics 2. Quantum effects.

3. Canonicle ensembles. 4. Partition functions.

5. Computation of thermodynamic functions.

Solution Thermodynamics (423742):

This course deals rigorously and thoroughly with the physical chemistry of solvation. The following topics are treated.

1. Thermodynamics of solvation and solvent mixtures. 2. Preferential solvation and rates and mechanisms.

4. Influence of dielectric constants on Arrhenius parameters.

5. Graphical and computational methods for determining stability constants in aqueous solutions.

Quantum Chemistry (423743):

After a quick review of basic postulates and theorems, this course deals with the following topics:

1. Operators and matrix elements.

2. Variational and perturbation calculations. 3. Hartree-Fock approximation.

4. Configuration interaction.

Chemical Kinetics (423744):

This course deals rigorously with advanced concepts in chemical kinetics. The following subjects will be treated:

1. Statistical mechanics of equilibrium and derivation of the rate equation using statistical arguments.

2. Unimolecular reactions and RRKM statistical treatments. 3. Gas kinetics.

Special Topic in Analytical Chemistry (423881):

Each student takes a point in which he likes to do research later on. Under the supervision of an instructor, the student collects all information about a topic in analytical chemistry from the literature and writes a paper on the subject. The student may also be asked to give a seminar.

Special Topic in Inorganic Chemistry (423882):

Each student takes a point in which he likes to do research later on. Under the supervision of an instructor, the student collects all information about a topic in inorganic chemistryfrom the literature and writes a paper on the subject. The student may also be asked to give a seminar.

Special Topics in Organic Chemistry (423883):

Each student takes a point in which he likes to do research later on. Under the supervision of an instructor, the student collects all information about a topic in organic chemistryfrom the literature and writes a paper on the subject. The student may also be asked to give a seminar.

Special Topics in Physical Chemistry (423884):

Each student takes a point in which he likes to do research later on. Under the supervision of an instructor, the student collects all information about a topic in physical chemistryfrom the literature and writes a paper on the subject. The student may also be asked to give a seminar.

Second