“The Applied Chemical Sciences program will prepare students with chemistry backgrounds for employment in chemical industries, energy industry, medical or pharma, or government / non-profit organizations. These graduates will target jobs that are different from the more technically focused Ph.D. in Chemistry and/or Master’s in Chemical Engineering.” The program offers an enhancement of various chemical topics that can be directly applied to specific industrial, technological, and medical purposes. It consists of three separate areas of specialization reflecting the importance of chemical sciences in multiple technological applications. (Dr. Michelle Gilbertson, professor Chemistry)
The Petroleum Chemistry area of specialization will focus on coursework with applications of chemical sciences in the oil industry. A molecular description of the processes taking place during the oil extraction and its processing into final industrial products will be presented.
The Bioorganic Chemistry area of specialization will focus on explaining the molecular structures, the underlying mechanisms of chemical reactions, synthesis, and biological applications of various compounds that are relevant for modern biotechnological and pharmaceutical industries.
The area of specialization in Computational Chemistry and Data Science will focus on developing a theoretical understanding of complex chemical processes by developing computer simulations and data science analysis skills.
Dagmar Beck, Director of the Professional Science Master’s Office at the Wiess School of Natural Science pointed out: “Our oversight faculty from the Chemistry department has been working closely with industry advisors to provide an appropriate curriculum relevant to industry and business addressing their workforce needs.”
Objectives
Students in this degree will not only be strengthening their technical knowledge and scientific skills, such as analysis, research, characterization, data collection, and problem-solving, but also will work on the development of written, analytical, and verbal communication skills. This interdisciplinary curriculum provides graduates of this program with the tool-set to be successful in the science/technology industry.
The objective of this non-thesis MS program is to provide an alternate pathway for students to complete an MS degree in chemistry that does not involve an in-depth research project and thesis. This degree option is intended for students whose personal interests or current work responsibilities lower the desirability of conducting the required research for the thesis-based degree. K-12 teachers, non-traditional students, and employees of local industry who want to earn an MS degree for promotions or to meet eligibility requirements for teaching positions at community colleges may wish to pursue this degree option.
Coursework
Program Requirements
The Applied Chemical Science degree requires a minimum of 39 credit hours, not including the internship. The curriculum is built on a framework of relevant chemistry courses, business/management, analytics, and professional development: i.e. communication training, research, and practical experience in the form of an internship.
Recommended Background
Applicants may or may not hold a Bachelor’s degree in chemistry or biochemistry, but they should hold a Bachelor’s degree in a closely related natural science discipline.
B.A. or B.S. degree in a related science or engineering program that included coursework in general physics, chemistry, calculus, linear algebra, and differential equations
Scores form the general Graduate Record Examination (GRE)
GPA of 3.0 or above
TOEFL or IETLS scores required for international students
Strong quantitative abilities recommended
Statistics, introductory economics, and computer skills are preferred, but not required
General Course Requirements:
NSCI 501 (2 semesters required, 1 credit each)
NSCI 511 Science Policy and Ethics
NSCI 512 Professional Master’s Project
NSCI 610/ENGI 610 Management for Science and Engineering
Note: Resources for these courses are already in place; faculty has been teaching the management course and the PSM Program Director has been hosting the seminar inviting guest speakers to campus since the inception of the program.
Core Chemistry Courses:
CHEM 5XX New Seminar Course
CHEM 5XX New Course on a statistical analysis
CHEM 6XX Research Experience
In addition to the courses listed above, students will pick from one of the areas of specialization below and choose 4 courses (12 credit hours) from the area.
Bioorganic Chemistry (Advisor: Eugene Zubarev)
Select 4 courses (12 credit hours) from the following:
CHEM 501 Advanced Organic Chemistry
CHEM 511 Spectral Methods Organic Chemistry
CHEM 542 Medicinal Chemistry
CHEM 552 Chemical Biology
CHEM 548 Peptide Chemistry AND CHEM 554 Drug Discovery
CHEM 547 Supramolecular Chemistry
Computational Chemistry and Data Science (Advisor: Anatoly Kolomeisky)
Select 4 courses (12 credit hours) from the following:
CHEM 501 Advanced Organic Chemistry
CHEM 511 Spectral Methods Organic Chemistry
CHEM 542 Medicinal Chemistry
CHEM 552 Chemical Biology
CHEM 548 Peptide Chemistry AND CHEM 554 Drug Discovery
CHEM 547 Supramolecular Chemistry
Computational Chemistry and Data Science (Advisor: Anatoly Kolomeisky)
Select 4 courses (12 credit hours) from the following:
CHEM 523 Molecular Dynamics Methods-from statistical
Mechanics to Machine Learning
CHEM 551 Biomolecular Concepts
CHEM 537 Biophysical Chemistry
CHEM 515 Chemical Kinetics
CHBE 505 Advanced Numerical Methods
STAT 532 Foundations of Statistical Inference I
STAT 533 Foundations of Statistical Inference II
STAT 535 Data Science Projects
Petroleum Chemistry (Advisor: James Tour)
Select 4 courses (12 credit hours) from the following:
CHEM 533 *Nanoscience & Nanotechnology
CHEM 511 Spectral Methods Organic Chemistry
CHEM 547 Supramolecular Chemistry
CHEM 520 Classical & Stat Thermodynamics
CHEM 5xx New Lab Course **
CHBE 505 Advanced Numerical Methods
CHBE 550 Petroleum Phase Behavior and Flow Assurance
ESCI 544 Hydrocarbon Exploration
*Course will be renamed to include petroleum chemistry. Topics are already covered ** Course taught by adjunct faculty. Introduced year 2 of the program. This course would teach the field lab techniques used specifically by chemists in the oil industry.
Plus Elective Requirements: 9 Credit Hours: Choose from electives in management, business, analytics, or communication
ENGI 515 (3) Leading Teams and Innovation (F)
ENGI 614 (3) Learning how to Innovate
ENGI 542 Communication for Engineers/Scientists
ESCI 549 Data Management and Governance
MGMT 610 Fundamentals for the Energy Industry
MGMT 625 Design Thinking
MGMT 633 / BIOE 633 Life Science Entrepreneurship
MGMT 676 Social Enterprise
MGMT 678 US Health Care Management
MGMT 686 Introduction to Marketing Research
MGMT 689 Decision Models
MGMT 717 Project Management
MGMT 771 Digital Marketing
MGMT 721 Business Law
MGMT 747 Regulatory Environment of Business
and others – depending on availability of courses and in coordination with the respective departments and the Jones School of Business
And others
Three to Six Month Internship:*
Internships are envisioned with local chemical/medical/bioscience industries, non-profits, governmental or municipal organizations, labs, etc.
*Footnotes and Additional Information
Practical experience is offered via a three to six-month immersion. The internship will be under the guidance of a hosting company, government agency, or non-profit organization. At the conclusion of the internship, students must present a summary of their internship project in both oral and written form for the cohort course NSCI 512. Part-time students who already work in their area of study may fulfill the internship requirements by working on an approved project with their current employer.
