The program is offered in two options, the Materials Science option and the Materials Engineering option. These options are administered by the CSLA (College of Science and Liberal Arts) and NCE (Newark College of Engineering) colleges, respectively. A joint committee involving CSLA and NCE faculty will be in charge of overseeing this program.

Materials Engineering Option

Administered by Department of Chemical and Materials Engineering (CME), NCE

Degree Requirements

Ph.D. coursework requirements

Ph.D. students with a recognized Master’s degree or equivalent in materials engineering or a related field are required to take four 700-level 3-credit courses (12 credits). 

Ph.D. students with a recognized Baccalaureate degree in materials engineering or a related field are required to take eight 600-level or 700-level 3-credit courses (24 credits) of coursework beyond the Baccalaureate degree as well as four additional 700-level 3-credit courses (12 credits), for a total of twelve 3-credit courses (36 credits). 

Master’s project (course 700), Master’s thesis (course 701), or more than two independent study courses (courses 725 and 726) cannot be used to satisfy these coursework requirements.

A Ph.D. student may substitute a 600-level course for a 700-level course only after the academic advisor appeals on behalf of the student to the Office of Graduate Studies and receives approval. A Ph.D. student's dissertation committee may request the student to take additional courses.

In addition to the minimum degree credits specified above, students must register every semester for ChE791, Graduate Seminar.  Part-time students may request that this requirement be waived.

Ph.D. in Materials Science and Engineering – Materials Science option (entering with master's degree)

700-level courses in a chosen track12
Graduate Seminar
Total Credits12

Ph.D. in Materials Science and Engineering – Materials Science option (entering with bachelor's degree)

Required Courses (2 common and 2 selective courses)
MTSE 601Fundamentals of Engineering Materials3
or MTEN 610 Found of Materials Sci & Engr
MTSE 602Thermodynamics of Materials3
or MTEN 612 Thermodynamics of Materials
Select two of the following four courses9
Intro to Phys Prin of Material
Mathematical and Statistical Methods in Materials Science
Science and Technology of Thin Films
Nanomaterials
Nanomaterials
Remaining courses
600- or 700-level courses in a chosen track
700-level courses in a chosen track
MTSE 791Graduate Seminar0
Total Credits of Course Work36

* No less than 12 credits must be at the 700 level, including credits from the required courses.

Tracks

Electronic and Photonic Materials Tracks

MTSE 603Intro to Phys Prin of Material3
MTSE 688Mathematical and Statistical Methods in Materials Science3
MTSE 765Science and Technology of Thin Films3
CHEM 748Nanomaterials3
or MTEN 712 Nanomaterials
MTSE 610Mechanical Properties of Materials3
MTSE 655Diffusion and Solid State Kinetics3
or MTEN 611 Diffusion & Solid State Kineti
MTSE 681Composite Materials3
MTSE 719Physical Principles of Characterization of Solids3
MTSE 719Physical Principles of Characterization of Solids3
MTSE 724Transport of Electrons and Phonons in Solids3
PHYS 661Solid-State Physics3
PHYS 682Introduction To Mems3
PHYS 687Physics of Materials3
PHYS 789Physics of Advanced Semiconductor Device Processing3
PHYS 611Adv Classical Mechanics3
PHYS 621Classical Electrodynamic3
PHYS 641Statistical Mechanics3
R755 631Quantum Mechanics3
PHYS 731Quantum Mechanics II3
CHEM 610Advanced Inorganic Chemistry3
CHEM 658Advanced Physical Chemistry3
CHEM 737Applications of Computational Chemistry and Molecular Modeling3
CHEM 764Advanced Analytical Chemistry3
CHE 702Selected Topics in Chemical Engineering II3
ECE 625Fiber and Integrated Optics3
ECE 626Optoelectronics3
ECE 657Semiconductor Devices3
ECE 658VLSI Design I3
ECE 659Fabrication Principles of Electronic and Optoelectronic Devices3
ECE 739Laser Systems3

Particulate and Nano Materials Track

MTSE 603Intro to Phys Prin of Material3
MTSE 688Mathematical and Statistical Methods in Materials Science3
MTSE 765Science and Technology of Thin Films3
CHEM 748Nanomaterials3
or MTEN 712 Nanomaterials
MTSE 610Mechanical Properties of Materials3
MTSE 655Diffusion and Solid State Kinetics3
or MTEN 611 Diffusion & Solid State Kineti
MTSE 681Composite Materials3
MTSE 719Physical Principles of Characterization of Solids3
CHEM 605Advanced Organic Chemistry I: Structure3
CHEM 610Advanced Inorganic Chemistry3
CHEM 658Advanced Physical Chemistry3
CHEM 673Biochemistry3
CHEM 737Applications of Computational Chemistry and Molecular Modeling3
CHEM 764Advanced Analytical Chemistry3
BME 669Engineering Physiology3
BME 672Biomaterials3
PHYS 661Solid-State Physics3
PHYS 682Introduction To Mems3
PHYS 687Physics of Materials3
PHYS 611Adv Classical Mechanics3
PHYS 621Classical Electrodynamic3
PHYS 641Statistical Mechanics3
R755 631Quantum Mechanics3
PHYS 731Quantum Mechanics II3
ME 676Applied Plasticity3
ME 678Engineering Design of Plastic Products3

Mathematical and Computational Materials Science Track

MTSE 603Intro to Phys Prin of Material3
MTSE 688Mathematical and Statistical Methods in Materials Science3
MATH 611Numerical Methods for Computation3
MATH 613Advanced Applied Mathematics I: Modeling3
MATH 666Simulation for Finance3
MATH 671Asymptotic Methods I3
MATH 675Partial Differential Equations3
MATH 677Calculus of Variations3
MATH 689Advanced Applied Mathematics II: Ordinary Differential Equations3
MATH 690Advanced Applied Mathematics III: Partial Differential Equations3
MATH 712Numerical Methods II3
MATH 713Advanced Scientific Computing: Multi-Dimensional Finite-Difference Schemes and Spectral Methods3
MATH 722Wave Propagation3
MATH 767Fast Numerical Algorithms3
PHYS 661Solid-State Physics3
PHYS 611Adv Classical Mechanics3
PHYS 621Classical Electrodynamic3
PHYS 641Statistical Mechanics3
R755 631Quantum Mechanics3
PHYS 731Quantum Mechanics II3
CHEM 737Applications of Computational Chemistry and Molecular Modeling3
MTSE 765Science and Technology of Thin Films3
CHEM 748Nanomaterials3
or MTEN 712 Nanomaterials

Qualifying Examination

The student must pass a written and an oral qualifying examination. The written qualifying exam given every summer is administered to test general academic preparation and competence in the research of Materials Science. Within one year after passing the written qualifying exam, the student is required to pass the oral qualifying exam to achieve Ph.D. candidacy, in which the potential Ph.D. candidate presents a preliminary research proposal for approval by the dissertation committee. The student will be allowed two attempts to pass the written or oral qualifying exam.

Students take written qualifying exams on the following common required courses.

MTSE 601Fundamentals of Engineering Materials3
or MTEN 610 Found of Materials Sci & Engr
MTSE 602Thermodynamics of Materials3
or MTEN 612 Thermodynamics of Materials

Dissertation advisor and committee

Students must select a dissertation topic and advisor within 6 months of joining the program.  Before making a decision, students are encouraged to discuss research topics with several active research faculty members of the department.

The doctoral dissertation committee is led by the Dissertation Advisor. It must include at least five members, including at least four members of the department faculty and at least one external member.

Qualifying examination

All PhD candidates must pass a qualifying examination.  Students must take the examination by the end of the second semester after enrolling in the PhD program.  If repeated examination is necessary, the examination must be passed by the end of the third semester after enrolling in the PhD program.

Pre-requisites for the qualifying examination:

- Average grade of 3.5 for all four core courses and a minimum grade B in each of the core courses taken at NJIT

- Equivalent grade for the same subject course based on the MS transcript from an institution other than NJIT may be acceptable, as decided by the Graduate Studies Committee

- Students whose subject courses differ from those offered at NJIT, so that their MS transcript grades are not deemed acceptable as equivalent to the NJIT core courses by the Graduate Studies Committee are required to take final examinations for each of the core courses during their first two semesters after enrolling into PhD program to satisfy the present requirement.

- A student can take the final examination in each core course up to two times to satisfy the present requirement.

- Failing the present requirement is equivalent to the failing the qualifying examination.

Qualifying examination format

The examination is administered by an Examination Committee including at least three members of the CME graduate faculty.  The Examination Committee is appointed by the Graduate Studies Committee each semester.  The Examination Committee does not include the student’s current or potential PhD thesis adviser.

Three months before the examination date, an assignment is given to a student to prepare for the qualifying examination.  The assignment is given by the student’s current or potential PhD thesis adviser in coordination with Examination Committee.  The assignment identifies a research topic to be addressed in two parts of the examination:

- A written paper, comprising a literature review (no longer than 20 pages excluding references; 12 pts font, double spaced) on the identified research topic. The review needs to

  • Identify an open research problem,
  • Outline state of the art, and
  • Propose an approach for future research in this area.
  • If pertinent, results of preliminary work may be included.

- An oral presentation no longer than 20 min, followed by questions.  The presentation will be open to the public; committee deliberations following the presentations will be restricted to the committee members only.

The result of the examination is determined by the Examination Committee based on the review of the written paper, oral examination, and feedback from the current or potential PhD thesis adviser.

A student is allowed to repeat the qualifying examination only once.

Ph.D. dissertation registration requirements

• Ph.D. students who pass the Qualifying Examination (QE) must then register for 3 credits of doctoral research (790B) per semester until they defend successfully the dissertation proposal.

• Ph.D. students who defend the dissertation proposal successfully must then register for the 1-credit dissertation course (790A) each semester until they complete all degree requirements.

• Students may take courses simultaneously with the 790 or 792 courses as per Ph.D. program guidelines or dissertation committee recommendation.

• With the exceptions approved by the Graduate Studies Committee, full-time students who do not meet the following deadlines will be dismissed from the Ph.D. program.

  • The required coursework for the Ph.D. program and the (major part of the) QE must be completed successfully by the end of the second year in the program.
  • The dissertation proposal must be defended successfully either by the end of the third year in the Ph.D. program or four semesters after registering for the first time in the 792 pre-doctoral research course, whichever occurs earlier.

The dissertation must be defended successfully no later than by the end of the sixth year in the Ph.D. program.