Our PhD program in Materials Science and Engineering focuses on advanced materials and their application across the full spectrum of technical challenges around the world.
You'll receive a broad and deep understanding of materials science and engineering, preparing you for a range of career paths, including in academia, national laboratories, industry, government or nonprofits.
We offer the PhD in Materials Science and Engineering at our Potsdam campus.
Why Earn a PhD in Materials Science and Engineering From Clarkson?
The PhD in Materials Science and Engineering is multidisciplinary in its approach and engages faculty from across the divisions of the Coulter School of Engineering and Applied Sciences. This structure infuses the materials science and engineering curriculum with diverse perspectives and emphasizes industry-shaping research.
Our PhD program creatively combines opportunities for intellectual growth with hands-on experience in engineering materials and processes. You'll be able to choose coursework tailored to your areas of research interest.
What You'll Learn
The PhD in Materials Science and Engineering program consists of 90 credit hours of coursework, seminars and project work.
This MSE program is designed to provide you with an in-depth, fundamental understanding of metals and alloys, polymers, ceramics, composites and advanced materials, as well as the relationships among structure, properties and processing.
Applications of advanced materials in biotechnology, electronic devices, alternative energy and the environment are at the forefront of technology development. Companies such as Corning, General Electric, IBM and GlobalFoundries, as well as the federal government and academia, seek scientists and engineers with MSE degrees to sustain their competitive edge.
Required core classes in materials science include:
Advanced Characterization of Materials
Advanced Materials Science and Engineering
You'll then choose four courses related to materials properties and applications. Example courses include:
Additive Manufacturing
Advanced Mechanics of Composite Materials
Advanced Welding Metallurgy
Biomaterials and Biomedical Engineering Applications
Bioelectronics and Bionanotechnology
Colloids and Interfaces
Dielectrics
Electronic Devices for IC Simulation
Functional Polymer Systems
Intermolecular Forces in Modern Engineering
Introduction to Polymer Science
Nanostructured Materials
Physics of Semiconductor Devices
Polymer Materials
Principles of Physical Metallurgy
Selected Topics in Materials Engineering
You'll additionally select two courses in materials processing and characterization. Example courses include:
Corrosion Engineering
Manufacturing Implications of Advanced Materials Processing
Microelectronic Circuit Fabrication
Particle Transport, Deposition and Removal
Scanning Probe Techniques in Soft Condensed Matter Physics
Some courses are available online and can be taken remotely.
Review the full curriculum for the PhD in Materials Science and Engineering.
A limited number of one-year and partial-year tuition scholarships are available for qualified full-time students. A limited number of stipends are also available. Most scholarships and/or stipends are associated with department assistantships or completion of a master’s thesis as part of the qualified applicant’s plan of study.
To learn more about our scholarships and how to apply, contact the Coulter School of Engineering and Applied Sciences' graduate division at enggrad@cnof86.com.
All students must complete the candidacy procedure within two years after admission to the PhD program. Students may have two attempts to pass the candidacy procedure. If they fail their first attempt, they have two months to make a second attempt.
A dissertation must be submitted and defended orally before a committee of five faculty members, with at least one member from outside the department of the candidate's thesis advisor. Typically, faculty advisors are members of the Departments of Mechanical Engineering, Chemical Engineering, Chemistry or Physics.
Optional: Applications will be read without GRE test scores, but applicants should submit scores if they believe they will enhance their application.
For international applicants, an English proficiency test is required.
Minimum test score requirements: TOEFL (80) and TOEFL Essentials (8.5), IELTS (6.5), PTE (56) or Duolingo English Test (115).
The English language-testing requirement is not waived based on language of instruction, nor do we accept university certificates. English testing is waived if an applicant has a degree from a country where English is the Native Language. Click here to see the list of these countries.
Career Possibilities
The PhD program is designed to prepare graduates for careers in research, development, design and education. The median wage of a materials science engineer with a PhD in the U.S. is $118,000 a year, according to Payscale.com. However, the expected salary of an engineer with a PhD varies considerably according to experience.
Positions for those with a PhD in Materials Science and Engineering include:
Industrial production manager
Manufacturing engineer
Materials engineer
Medical writer
Process engineer
Professor
Research engineer
Research manager
Senior process engineer
Recent Employers
In looking ahead in their careers, PhD in Materials Science and Engineering students have found positions through:
Global Foundries
Intel
Knolls Atomic Power Laboratory
Lumentum
The Navicor Group
STEM OPT Eligible
In-Person Delivery
Request Info
Loading...
Contact Us
Department of Graduate Admissions Email:graduate@cnof86.com Phone: 518-631-9831
The MSE graduate program is closely associated with the Center for Advanced Materials Processing (CAMP). CAMP strives to perform innovative research and conducts educational efforts of interest to industry on the synthesis and processing of advanced materials.