The Master of Science Degree in Chemistry

M.S. Chemistry Student Handbook 2010-2011

The Master of Science Degree in Chemistry

The M.S. degree in Chemistry requires substantial original research on a project that culminates in a thesis. A minimum of 30 credits in graduate courses and seminars (including thesis credit) are required. All requirements for the degree and graduation must be completed within a period of seven years.

• Graduates will attain a broad knowledge in five areas of Chemistry: analytical, biochemistry, inorganic, organic and physical chemistry.
• Graduates will conduct novel research in Chemistry.
• Graduates will be prepared to continue on to advanced graduate (Ph.D.) programs.

I. Admission Requirements

• Candidates must have at least a 3.0 GPA for all upper division credits taken in their previous B.S. or B.A. degree program to be admitted to REGULAR graduate student status.
• GRE scores are required. The score in two portions of the GRE (Verbal, quantitative or analytical) must be in the 35th percentile or higher to be considered for admittance with REGULAR status.
• Lower GPA and/or GRE scores require graduate admissions committee approval to admit a candidate under PROVISIONAL status. PROVISIONAL status will be removed upon satisfactory completion of one year of graduate coursework (B or better in all classwork, satisfactory progress toward completion of thesis research).
• A number of courses are prerequisites for the M.S. degree program. Generally these will have been taken as part of an undergraduate degree in Chemistry or Biochemistry. These courses are: one year of calculus, one year of physics, one semester of analytical chemistry, one year of organic chemistry, one year of physical chemistry, and either one semester of inorganic chemistryor one semester of biochemistry. Because these are undergraduate courses, any credit earned in taking these courses will not be applied toward the 30 credit requirement for the M.S. degree.
• Course work used as a prerequisite for a chemistry class must be no more than five years old unless the student obtains the permission of the instructor and the department chair.
• Students deficient in more than 9 credits of M.S. degree program prerequisites are ineligible to apply for the program. Students deficient in 9 or less credits of prerequisite coursework may apply for PROVISIONAL acceptance into the program. To remove the PROVISIONALstatus, the prerequisite coursework must be completed with a B grade or higher in the first year of the program.

II. How to Apply:

Potential applicants are encouraged to contact the department for advice on current application deadlines at: Department of Chemistry and Biochemistry, 1910 University Drive
Boise, ID83725-1520, Phone: (208) 426-3000, email: . Applications received prior to March 1 will receive priority for Fall semester entrance, although later applications will be considered if space and support are available.

• Applications for admission into the M.S. Chemistry Program can be found online at: A complete application package will consist of:
• A cover letter expressing interest in admission to the program
• A completed application form
• Two letters of recommendation from science faculty at the applicants’ undergraduate institution.
• Transcriptsof all prior college coursework (unofficial is acceptable)
• Official GRE scores
• A complete application to the program should be delivered to the Graduate Program Director, Dept. Chemistry & Biochemistry, Boise State University, 1910 University Drive Boise, ID 83725-1520, Phone: (208) 426-3000, email: .
• Application deadlines are approximately February 15 (for Fall admission) and August 15 (for Spring admission).
• Candidates will be evaluated by the Graduate Program Committee in March and September, and notified by email and letter, of acceptance or rejection of admission into the program. A letter of support from the Committee will be forwarded to the GraduateCollege to indicate that the candidate has met the program requirements.
• IMPORTANT. Candidates who are accepted into the program MUST still apply for acceptance into the GraduateCollege at BoiseStateUniversity. Application forms and instructions can be found at transcripts and GRE scores for the departmental program may still be used. A candidate is not officially accepted as a graduate student into the M.S. Chemistry degree program until their acceptance into the GraduateCollege is official.

III. M.S. Degree Requirements

The Master of Science in Chemistry program will provide students with advanced training in modernchemical research methods. The program is designed to provide students with a core foundation in chemistrywhile maintaining course work flexibility. Table 1 lists the degree requirements.

Table 1: Degree Requirements for Master of Science in Chemistry

Master of Science in Chemistry
Course Number and Title / Credits
Core Courses
Chem 500 Research Methods in Chemistry & Biochemistry
One course each from three different subdisciplines of Chemistry
except for Chem 580-589 and Chem 597
Chem 598 Seminar / 1
9
4
Elective Courses
Additional coursework from the Department of Chemistry and Biochemistry
Any 500 or 600 Science, Math or Engineering electives as approved by the
supervisory committee / 3
3
Preliminary Examination
Chem 600 (Thesis Proposal Defense) / 1
Culminating Activity
Chem 593 Thesis / 9
TOTAL / 30

The following requirements apply to the proposed twoyeardegree program:

• Completion of 30 credits of course work and research.
• Average GPA for graduate coursework of at least 3.0 on a 4 point scale.
• Enrollment in CHEM 500 (Research Methods in Chemistry & Biochemistry) in the first semester of graduate study.
• Completion of three graduate chemistry courses in different sub-disciplines of Chemistry (Analytical, Biochemistry, Inorganic, Organic, and Physical). One of these courses will be in the area that the student is conducting research, while the other two will be in other sub-disciplines. Course listings by sub-discipline can be found in Table 2.

Table 2. Graduate Course by Sub-discipline

Analytical / CHEM 511
Biochemistry / BCHM 510, BCHM 511, BCHM 512, BCHM 513
Inorganic / CHEM 501, CHEM 551, CHEM 552
Organic / CHEM 507, CHEM 508, CHEM 509, CHEM 510, CHEM 540, CHEM 560, CHEM 561
Physical / CHEM 521, CHEM 522, CHEM 523

• Enrollment in CHEM 598 (Seminar) every semester (4 cr total).
• Completion of at least 6 credits of elective coursework.
• Completion of at least 9 credits of CHEM 593 (Thesis research).
• Completion of 1 credit CHEM 600 (Thesis defense). The thesis must be the result of independent and original research by the student, and must constitute a significant contribution to current knowledge in Chemistry. The thesis is defended at the final oral examination which is conducted according to the procedures of the GraduateCollege.
• Each student will form a thesis/project advisory committee, which will consist of at least three members: the student's major professor (a Boise State University Dept. of Chemistry & Biochemistry faculty member) and two other members from the BoiseStateUniversity faculty or other institutions. The committee will determine if academic deficiencies exist that must be remedied, help design thesis/project research, help choose appropriate graduate coursework, evaluate the thesis/project, and conduct the final defense.

IV. Financial Aid

A limited number of teaching assistantships that include a stipend, tuition and fee waiver, and student health insurance are available to M.S. students on a competitive basis for the first year of study. Additional M.S. student support may be available from faculty members in the form of research assistantships. Other forms of financial aid (loans, work-study, etc) are available to graduate students. Prospective students should contact the Financial Aid Office and consult the BoiseStateUniversity catalog.

V. Curriculum

CHEM 500 RESEARCH METHODS IN CHEMISTRY AND BIOCHEMISTRY (1-0-1) (F) An introduction to project planning, literature assessment, report writing, and data management.

CHEM 501 ADVANCED INORGANIC CHEMISTRY (3-0-3) (S)Atomic structure, molecular structure using valence bond and molecular orbital theories, elementary group theory,transition metal coordination chemistry, acids and bases, descriptive transition and non-transition metal chemistry.PREREQ: CHEM 322 or PERM/INST.

CHEM 507 PHYSICAL ORGANIC CHEMISTRY (3-0-3) (S) (ALTERNATE YEARS)Mechanisms of organic chemical reactions, stereochemistry, and conformational analysis. The important types oforganic reactions are discussed. Basic principles are emphasized; relatively little attention is paid to the scope andsynthetic applications of the reactions. PREREQ CHEM 309 and CHEM 322 or PERM/INST.

CHEM 508 SYNTHETIC ORGANIC CHEMISTRY (3-0-3) (F) (ODD YEARS) The scope and limitations of the more important synthetic reactions are discussed within the framework of multisteporganic synthesis. PREREQ: CHEM 309 or PERM/INST.

CHEM 509 INTRODUCTION TO POLYMER CHEMISTRY (3-0-3) (F) (EVEN YEARS) An introduction to the concepts of polymer synthesis, characterization, structure, properties, and basic fabricationprocesses. Emphasis is on practical polymer preparation, on the fundamental kinetics and mechanisms ofpolymerization, and on structure-property relationship. PREREQ: CHEM 309 or PERM/INST.

CHEM 510 ORGANIC POLYMER SYNTHESIS (3-0-3) (S) (ALTERNATE YEARS) A study of the synthesis and reactions of polymers. Emphasis is on practical polymer preparation and on thefundamental kinetics and mechanisms of polymerization reactions. Topics include: relationship of synthesis andstructure, characterization of polymer structure, step-growth polymerization, chain-growth polymerization viaradical, ionic and coordination intermediates, copolymerization. PREREQ: CHEM 309 or PERM/INST.

CHEM 511 ADVANCED ANALYTICAL CHEMISTRY (3-0-3) (F).Stoichiometry involved in separations and instrumental methods of analysis. The course will be flexible in nature toadapt to the varied background of the expected students. PREREQ: CHEM 322 and CHEM 212.

CHEM 521 QUANTUM CHEMISTRY (3-0-3) (F) (ODD YEARS)Formal introduction to quantum mechanics, Dirac notation, angular momentum and operator algebra. Emphasiswill be placed on electronic structure theory, reaction mechanisms and the use of modern quantum chemistrytheoretical packages. PREREQ: CHEM 322 or PHYS 309 or PERM/INST.

CHEM 522 SPECTROSCOPY (3-0-3) (DEMAND)Concepts and practical usage of modern chemical spectroscopic techniques, including electronic absorption,infrared/Raman, X-Ray/EXAFS, magnetic resonance and magnetic circular dichroism. Emphasis will be placed onthe application of these techniques to the structure/function characterization of chemical and biochemical systems.PREREQ: CHEM 521 or PERM/INST.

CHEM 523 CHEMICAL KINETICS (3-0-3) (F) (EVEN YEARS) A comprehensive study of the role of quantum chemistry and thermodynamics in chemical reactions. Emphasis willbe placed on determining reaction coordinates and transition states. Extensive use will be made of moderncomputational chemical computer programs for calculating potential energy surfaces and transition states.PREREQ: CHEM 322 or PERM/INST.

CHEM 540 SPECTROMETRIC IDENTIFICATION (3-0-3) (S). Identification of compounds using modern spectrometric techniques. PREREQ: CHEM 309 and CHEM 321.

CHEM 551 BIOINORGANIC CHEMISTRY (3-0-3) (S) (EVEN YEARS).Exploration of the vital roles that metals play in biochemical systems. Emphasis is on transition metals in biology.Course will focus on structural, regulatory, catalytic, transport and redox functions of bioinorganic systems.PREREQ: CHEM 322 or PERM/INST.

CHEM 552 ORGANOMETALLIC CHEMISTRY (3-0-3) (S) (ALTERNATE YEARS). An examination of the organometallic chemistry of the main group and transition elements. Topics to include: structure and bonding of complexes having pi ligands, transition metal mediated organic synthesis, homogeneous catalysis. PREREQ: CHEM 401 or 501 or PERM/INST.

CHEM 560 INTRODUCTION TO NMR SPECTROSCOPY (1-3-2) (DEMAND).This course will instruct students onthe theory and practice of one- and two-dimensional NMR spectroscopy. Emphasis will be placed on using theNMR spectrometer to solve a variety of chemical and biological problems. PREREQ: CHEM 322 or PERM/INST.

CHEM 561 INTRODUCTION TO MOLECULAR MODELING AND COMPUTATIONAL CHEMISTRY (1-3-2)(DEMAND). Overview of modern computational chemistry. Use of computational chemistry tools and their application to problems of chemical and biological interest. PREREQ: CHEM 322 or PERM/INST.

Biochemistry Course Offerings

BCHM 510 ADVANCED PROTEIN CHEMISTRY (3-0-3) (S) (EVEN YEARS).An in-depth study of proteins that focuses on amino acid chemistry, protein structure, protein folding, and proteinfunction. This course will discuss modern methods of protein characterization and the use of bioinformatics inunderstanding the chemistry/function of proteins. Given the recent developments in the proteomics, several of thehigh-throughputapproaches to identifying proteins assessing function will also be investigated. Extensive use ofprimary literature is expected. PREREQ: CHEM 431 and CHEM 322 OR PERM/INST.

BCHM 511 NUCLEIC ACID METABOLISM (3-0-3) (DEMAND).An in-depth study of the metabolism of both DNA and RNA at the molecular/mechanistic level. This course willcover the mechanisms DNA replication, transcription, translation, transposition and repair, as well as those for RNAsplicing, catalysis, silencing and interference RNA. Bioinformatics approaches and modern techniques for studyingDNA/RNA and their interactions with proteins will be discussed. Extensive use of primary literature is expected.PREREQ: CHEM 431 or PERM/INST.

BCHM 512 INTERMEDIARY METABOLISM (3-0-3) (DEMAND).An investigation into several anabolic, catabolic, and signaling processes in the cell. Special attention will be givento molecular mechanisms and regulation. Extensive use of primary literature is expected. PREREQ: CHEM 431 orPERM/INST.

BCHM 513 ADVANCED ENZYMOLOGY (3-0-3) (S) (ODD YEARS).A deeper look into the catalytic and kinetic mechanisms of enzymes. Modern methods for studying enzymes will beincluded as well as learning strategies for studying steady state and transient enzyme kinetics. Extensive use ofprimary literature is expected. PREREQ: CHEM 431 and CHEM 322 or PERM/INST.

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