PhD in Materials Science and Engineering

The Ph.D. in Materials Science and Engineering program aims to produce graduates with the disciplinary preparation and ability to:

Synthesize scientific and technical engineering knowledge in materials to identify, formulate and solve research challenges, and effectively disseminate the results to a variety of audiences.
Work across multiple disciplines and develop their individual academic, professional and career focus.
Keep abreast of the latest advances in materials science and engineering that contribute to the advancement of knowledge for the benefit of society.

Program Learning Outcomes

Students graduating with a PhD in Materials Science and Engineering will have the ability to:

Demonstrate appropriate breadth and depth of knowledge that is at the frontier of materials science and engineering discipline and areas of specialization.
Conduct and defend original independent research that results in significant contributions to knowledge in the materials science and engineering field and leads to publishable quality scholarly articles.
Understand and value diverse methodologies and techniques for solving critical problems in research.
Verify, justify and evaluate the various aspects of the solution to a complex materials science and engineering problem.
Communicate effectively and professionally, in written and oral forms, the major tenets of their field and their work to a variety of audiences.
Demonstrate a commitment to ethical behavior in research and professional activities.
Contribute effectively in multidisciplinary collaborative environments.

Completion Requirements

Students admitted to the PhD program with a Master鈥檚 Degree must satisfy the following requirements:

Complete a minimum of 24 credits of coursework (8 courses of 3 credit hours each). 听听听This is in addition to two zero-credit PhD Research Seminar courses. 听Subject to the advisor’s approval, up to two PhD level courses (maximum of 6 credits) can be taken from other doctoral programs offered at KU.
Pass all courses with a minimum passing grade of C in every course.
Achieve an overall CGPA (Cumulative Grade Point Average) of at least 3.0 out of 4.
Pass the Written Qualifying Exam (WQE), which assesses the technical background of the student. WQE is typically administered at the end of the 2nd regular semester after a full-time student鈥檚 admission into the PhD program, and before the end of the 4th semester in the case of a part-time student.
Pass the Research Proposal Examination (RPE), typically before the end of the 4th semester for full-time students and before the end of the 6th semester for part-time students.
Have at least one full paper accepted for publication in a quartile one ranked journal, per Scopus, in the research field of the dissertation before submitting the request of intent to defend the dissertation. The paper must be based on one of the research contributions in the dissertation, and the student must be the lead author of the paper.
Complete a Dissertation on original research and defend it successfully in a viva voce Dissertation Defense examination.

Students admitted to the PhD program with only a Bachelor鈥檚 Degree must satisfy the following requirements:

Complete a minimum of 36 credits of coursework (12 courses of 3 credit hours each). 听This is in addition to two zero-credit PhD Research Seminar courses. Subject to the advisor’s approval, up to two PhD level courses (maximum of 6 credits) can be taken from other doctoral programs offered at KU.
Pass all courses with a minimum passing grade of C in every course.
Achieve an overall CGPA (Cumulative Grade Point Average) of at least 3.0 out of 4. 听听听
Pass the Written Qualifying Exam (WQE), which assesses the technical background of the student. WQE is administered after the student successfully completes a minimum of 27 credits of formal coursework.
Pass the Research Proposal Examination (RPE), typically before the end of the 6th semester of full-time study.
Have at least one full paper accepted for publication in a quartile one ranked journal, per Scopus, in the research field of the dissertation before submitting the request of intent to defend the dissertation. The paper must be based on one of the research contributions in the dissertation, and the student must be the lead author of the paper.
Complete a Dissertation on original research and defend it successfully in a viva voce Dissertation Defense examination.

The Ph.D. in Materials Science and Engineering (MSEN) program for candidates with a Master鈥檚 Degree consists of a minimum of 60 credit hours. The required program credits are distributed as follows: 3 credits of Program Core courses, 21 credits of Program Elective courses, 36 credits for a PhD Research Dissertation, and two zero-credit PhD Research Seminar courses. 听The table below summarizes the structure and requirements of the Ph.D. in Materials Science and Engineering program. All the Ph.D. in Materials Science and Engineering program courses, except the Research Seminar courses and the PhD Research Dissertation, have a credit rating of three credits each.

Summary of Ph.D. in Materials Science and Engineering Degree Program Structure and Requirements for Candidates with a Master鈥檚 Degree

Category	Credits Required
Program Core	3
Program Electives	21
MSEN 703 PhD Research Seminar I	0
MSEN 704 PhD Research Seminar II	0
MSEN 795 PhD Written Qualifying Exam	0
MSEN 796 PhD Research Proposal Exam	0
MSEN 799 PhD Research Dissertation	36
Total	60

听

The Ph.D. in Materials Science and Engineering (MSEN) program for candidates with only a Bachelor鈥檚 Degree consists of a minimum of 72 credit hours. 听The required program credits are distributed as follows: 12 credits of Program Core courses, 24 credits of Program Elective courses, 36 credits for a PhD Research Dissertation, and two zero-credit PhD Research Seminar courses. 听The table below summarizes the structure and requirements of the Ph.D. in Materials Science and Engineering program. 听All the Ph.D. in Materials Science and Engineering program courses, except the Research Seminar courses and the PhD Research Dissertation, have a credit rating of three credits each.

Summary of Ph.D. in Materials Science and Engineering Degree Program Structure and Requirements for Candidates with a Bachelor鈥檚 Degree

Category	Credits Required
Program Core	12
Program Electives	24
MSEN 703 PhD Research Seminar I	0
MSEN 704 PhD Research Seminar II	0
MSEN 795 PhD Written Qualifying Exam	0
MSEN 796 PhD Research Proposal Exam	0
MSEN 799 PhD Research Dissertation	36
Total	72

Criteria for Admission

Applicants for the PhD in Materials Science and Engineering (MSEN) must satisfy Khalifa University (KU) general graduate admission requirements as well as program specific requirements. The admission requirements are available on KU admissions webpage through the link below.

/postgraduate-admissions听听

Schedule of Delivery (Study Plans)

Typical Study Plans for Students with MSc

Typical Study Plan for Students with only BSc

Typical Study Plan for Direct BSc to PhD admitted students

Typical Study Plan for Full-Time Students
	Semester 1	Semester 2
Year 1	ENGR 701 Research Methods in Eng. Core Course 1 Core Course 2 Core Course 3	Technical Elective 1 Technical Elective 2 Technical Elective 3 MSEN 799 PhD Research Dissertation
Year 2	Technical Elective 4 Technical Elective 5 MSEN 799 PhD Research Dissertation	MSEN 799 PhD Research Dissertation MSEN 795 PhD Written Qualifying Exam
Year 3	Technical Elective 6 MSEN 703 PhD Research Seminar I MSEN 799 PhD Research Dissertation	Technical Elective 7 MSEN 799 PhD Research Dissertation MSEN 796 PhD Research Proposal Exam
Year 4	Technical Elective 8 MSEN 799 PhD Research Dissertation	MSEN 704 PhD Research Seminar II MSEN 799 PhD Research Dissertation
Year 5	MSEN 799 PhD Research Dissertation	MSEN 799 PhD Research Dissertation Final Doctoral Dissertation Exam

All courses in the study plan are 3 credit hours each. PhD Research Seminars I & II are zero credits each.

Written Qualifying Examination (WQE)

The WQE for Ph.D. in Materials Science and Engineering consists of written examinations in three topical areas approved by the department. The topical areas are selected by the student with the approval of her/his advisor. The topical areas for Ph.D. in Materials Science and Engineering are the following:

Thermodynamics and kinetics of materials
Synthesis and characterization of materials
Thermal & mechanical properties of materials
Electrical and optical properties of materials
Chemical and electrochemical properties of materials

Failing any of the above topical areas will result in the student failing the entire WQE. However, a failed WQE can be retaken only once and passed upon the next offering of the examination pending a written request from the student and the approval of the relevant department chair, Associate Dean for Graduate Studies and the Dean of Graduate Studies. He/she will be required only to retake the exams in the topical areas that he/she failed during the WQE at the first attempt.

Mapping of Program Learning Outcomes to Level-10 Descriptors of QFEmirates

The PLOs have been mapped to the Level-10 descriptors of QF Emirates. The mapping demonstrates that the PLOs are consistent with the level and rigor expected for a PhD program that meets international standards.

Mapping of Program Learning Outcomes (PLOs) with QF Level (10) Descriptor

QF EMIRATES LEVEL 10 DESCRIPTORS		PROGRAM LEARNING OUTCOMES (PLOs)
QF EMIRATES LEVEL 10 DESCRIPTORS		PLO₁	PLO₂	PLO₃	PLO₄	PLO₅	PLO₆	PLO₇
	KNOWLEDGE
K1	Comprehensive, deep and overarching knowledge at the frontier of a professional field of work or discipline and at the interface between different fields or disciplines.	鈭�	鈭�	鈭�
K2	New knowledge, as judged by independent experts applying international standards, created through research or scholarship, that contributes to the development of a field of work or discipline		鈭�	鈭�	鈭�
	SKILLS
S1	A range of mastered skills and techniques, including synthesis, evaluation, planning and reflection, required to extend and redefine existing knowledge or professional practice or to produce original knowledge	鈭�	鈭�	鈭�	鈭�
S2	Advanced skills in developing innovative solutions to critical problems in research using highly developed cognitive and creative expert skills and intellectual independence		鈭�	鈭�	鈭�			鈭�
S3	Highly developed expert communication and information technology skills to present, explain and/or critique highly complex and diverse matters to specialist academic, peer specialists/experts and/or professional audiences	鈭�			鈭�	鈭�	鈭�
	ASPECTS OF COMPETENCE [Autonomy &Responsibility]
C1	Can act with substantial authority, creativity, autonomy, independence, scholarly and professional integrity in a sustained commitment to the development of new ideas or processes or systems in challenging and novel work or learning contexts		鈭�	鈭�	鈭�			鈭�
C2	Can account for overall governance of processes and systems			鈭�	鈭�
C3	Can lead action to build and transform socio-cultural norms and relationships		鈭�		鈭�		鈭�	鈭�
	ASPECTS OF COMPETENCE [Role in Context]
C4	Can originate and manage complex professional processes	鈭�	鈭�	鈭�	鈭�			鈭�
C5	Can lead and take full responsibility for the development and strategic deployment of professional teams and self		鈭�		鈭�			鈭�
C6	Can initiate and deploy qualities associated with professional leadership of peer groups and teams					鈭�	鈭�	鈭�
	ASPECTS OF COMPETENCE [Self-Development]
C7	Can analyze and critique the state of learning in a specialized field and contribute to its advancement	鈭�	鈭�		鈭�	鈭�
C8	Can self-evaluate and lead contributions to professional knowledge, ethics and practice including in unfamiliar and unpredictable learning contexts	鈭�			鈭�	鈭�	鈭�
C9	Can consistently and sensitively manage highly complex and diverse ethical issues leading to informed, fair and valid judgements					鈭�	鈭�

Teaching and Learning Methods

Assessment Methods

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