Master's in Chemistry

Master of Science
Main Campus - Melbourne
Major Code: 8031 Degree Awarded: Master of Science
Age Restriction: N Admission status: graduate
Delivery Mode/s: classroom only Location/s: main campus
Admission Materials: none  

An applicant for admission to the master's program should have an undergraduate degree in chemistry or in a related area. Typically, a minimum of eight semester courses should have been taken in four of the five major fields of chemistry: organic, analytical, physical, inorganic and biochemistry; as well as appropriate courses in mathematics and physics. Applicants may be admitted on a provisional basis with the requirement that undergraduate deficiencies be corrected during the first year of study. Proficiency examinations are administered to all new students the week before the beginning of classes as an aid in planning each program of study.

General admission requirements and the process for applying are presented in the Academic Overview section. All admitted students are enrolled in the nonthesis option by default.

Degree Requirements

The Master of Science in Chemistry is based on successful completion of either a thesis option requiring a minimum of 30 graduate credit hours following an approved program plan, a research proposal, thesis and oral examination in defense of the thesis; or a nonthesis option requiring 30 graduate credit hours following an approved program plan that includes the 3-credit hour Chemical Research Project (CHM 5095), and a final program examination. Students will be placed in the nonthesis option by default.

Thesis Option (department head approval required)

A thesis based on research conducted in residence at Florida Tech under the direction of a member of the chemistry department graduate faculty is required. During the first academic semester, the student selects a faculty member to serve as research advisor. During the same semester and with the assistance of the advisor, the student selects an advisory committee, prepares a program plan and defines a research topic. The student then progressively continues through the stages of research proposal, research, thesis and oral examination. Throughout this period, the advisory committee provides assistance and direction to the student and serves as the review board for the research proposal, thesis and oral examination.

Nonthesis Option (default option)

The nonthesis option requires advisor guidance in selection of six credit hours of coursework relevant to the student's area of interest and Chemical Research Projects (CHM 5095) in lieu of the thesis. Research will be primarily literature-based and includes successful completion of a final program examination.


Each student follows an individual program plan. The program plan must have a minimum of 30 credit hours including four core chemistry courses, three additional chemistry courses, and nine credit hours of thesis for the thesis option or six credit hours of relevant coursework and CHM 5095 for the nonthesis option. Students in either option must register for Chemistry Graduate Seminar (CHM 5900) each semester offered. All courses selected for inclusion on the program plan are subject to approval by the department head.

Core Courses (12 Credit Hours)
  • CHM 5002 Advanced Inorganic Chemistry
    Credit Hours: 3
    Includes structure and stability in coordination chemistry, spectroscopy of transition metal compounds; descriptive transition metal chemistry and reactions of metal compounds; and lanthanides and actinides. Introduces bioinorganic chemistry.
  • CHM 5111 Advanced Physical Chemistry
    Credit Hours: 3
    Selected topics in physical chemistry. Includes statistical mechanics and molecular modeling.
  • CHM 5304 Advanced Analytical Chemistry
    Credit Hours: 3
    Includes electrode processes, thermodynamic and kinetic considerations, electrochemical methods and recent research articles.
  • CHM 5500 Advanced Organic Chemistry
    Credit Hours: 3
    Fundamentals of physical organic chemistry. Includes stereochemistry and structure, methods of mechanistic elucidation and selected mechanistic descriptions.