Admission Requirements and Deadlines
Fall: June 1; March 1 international
Spring: November 1; August 1 international
Applications are processed on a continual basis. Ordinarily, the applicant is informed of an admissions decision within 4 to 6 weeks of receipt of all supporting application documents.
Applicants who plan to matriculate full-time are automatically considered for financial aid awards so no separate application for financial aid is required. To ensure financial aid consideration for the intended semester of study, however, applicants should submit a complete application by January 15 (Fall) and August 1 (Spring).
Both admissions and financial aid award decisions originate in the Bioengineering Department. Applicants are encouraged to contact the Bioengineering Graduate Program Director for advice and consultation in the application process.
APPLY ONLINE to this graduate program.
Number Required: 3
Letters of recommendation should be obtained from college or research faculty who are familiar with the applicant's competency. If the applicant has an established career in engineering, one of the letters should be provided by the applicant's immediate supervisor. If the applicant has been out of school long enough that relevant academic reference letters appear impractical, s/he should contact the Bioengineering Graduate Program Director to obtain a waiver of this admission requirement.
for Admission Consideration:
Students not adequately prepared for advanced courses may be required to take a number of prerequisites. The Bioengineering Department identifies the needed coursework on a case-by-case basis.
A bachelor's degree in Bioengineering or a related discipline is the preferred prerequisite degree. However, students who have earned a bachelor's degree in a related field are encouraged to apply, with the understanding that remedial preparatory courses may be a pre-condition of admission to the M.S. in Bioengineering program.
University regulations stipulate that the applicant must have earned a
3.0 grade-point average on a 4.0 scale in her/his undergraduate studies,
but admission exceptions are made for a variety of circumstances. (See
Graduate School Policy 02.23.11.03
The Bioengineering Graduate Program Director helps the applicant navigate the
admission possibilities, including the "Non-Matriculated Student Policy"
option identified below.
Statement of Goals:
The Statement of Goals should describe the applicant's relevant technical experiences and career goals. It should be one to two pages in length.
Standardized Test Scores:
The GRE is required. Applicants must submit scores taken no more than 5 years in advance of the application date. (See
Graduate School Policy 02.23.12.
) Applicants who require a waiver of the GRE should consult the Bioengineering Graduate Program Director concerning the mechanics and consequences of obtaining an exception.
Minimum TOEFL score needed to be accepted: 550 paper-based, 213 computer-based, or 79 internet-based. (See
Graduate School Policy 02.23.13.01
A resume is required.
Graduate credits taken at an accredited institution prior to matriculation may be transferred into the M.S. in Bioengineering program. In order to transfer, the courses must be equivalent to courses offered at Temple in the student's area of study and research, and the grades must be "B" or better. The maximum number of credits a student may transfer is 6. (See
Graduate School Policy 02.24.21
Applicants with two or more years of employment in an engineering profession performing engineering design and analysis may request a waiver of the GRE. Consult with the Bioengineering Graduate Program Director concerning the mechanics and consequences of obtaining an exception.
General Program Requirements:
Number of Credits Required
Beyond the Baccalaureate: 30
Students choose between three tracks:
1. Thesis Track, which is intended for full-time students who have a financial aid award and includes 24 s.h. of didactic coursework and 6 s.h. of thesis (ENGR 9996).
2. Project Track, which is intended for full-time students who are self-supporting and includes 27 s.h. of didactic coursework and 3 s.h. of project (ENGR 9995).
3. Coursework Track, which is intended for self-supporting part-time students and entails 30 s.h. of didactic coursework.
In the first semester, the student and Bioengineering Graduate Program Director jointly establish which track the student will follow; in doing this, they initiate the "M.S. in Bioengineering Plan of Study." The Plan of Study form lists all required courses and suggests an M.S. in Bioengineering program-requirement execution sequence for the student to follow. This form is used to track the student's progress, and is updated and annotated at least once a year as the student completes the various benchmarks in the program.
If a student's circumstances change, s/he can change tracks by revising the Plan of Study form and obtaining the requisite approval signatures. However, when considering whether to change one's track, the student should note that:
- "Thesis" credits (ENGR 9996) can only be applied toward the Thesis M.S. in Bioengineering degree program and cannot be applied to either the Project or Coursework Tracks.
- "Project" credits (ENGR 9995) can only be applied toward the Project M.S. in Bioengineering degree program and cannot be used for either the Coursework or Thesis Tracks.
In all three options, the didactic coursework may include up to, but no more than, 3 s.h. of ENGR 9182: Independent Study. Furthermore, students who wish to take graduate coursework in Temple University schools/colleges other than the College of Engineering will need to obtain the appropriate written approvals on their Plan of Study form.
Internship: No internship is required.
Language Examination: No language examination is required.
The culminating event in the M.S. in Bioengineering program depends on the student's choice of track: Thesis, Project, or Coursework.
The master's thesis is the culminating event in the Thesis Track and is typically undertaken during the last two successive semesters of study. Successful completion requires the following:
1. Thesis Proposal — ENGR 9996/1: Thesis I (3 s.h.)
The student assembles a committee of three or more faculty members, including her/his advisor, who is typically a full-time Bioengineering faculty member. The student's Plan of Study should be updated, if necessary, to indicate the advisor's name.
Under the guidance of the advisor and committee, the student prepares a research proposal and presents her/his proposal in an open College-wide seminar. The student is responsible for scheduling the proposal and posting an announcement at least 10 days in advance of this seminar. Ordinarily, the proposal seminar is immediately followed by a meeting of the student's advisory committee in which the student is closely questioned about the details and strategy of the proposed research. The proposal is then accepted by the committee, accepted by the committee with revisions, or rejected by the committee.
The student's advisory committee also jointly determines the letter grade (A-F) for Thesis I at the end of the semester. The student must pass Thesis I before registering for Thesis II. If the student fails Thesis I, s/he may either re-register for Thesis I in the next regular semester and repeat the entire proposal process (noting that a second failure will result in automatic dismissal from the University) or consider switching to the Project or Coursework Track, with the relevant updating of the Plan of Study form.
2. Thesis Defense — ENGR 9996/2: Thesis II (3 s.h.)
The student should register for Thesis II in the semester that s/he is prepared to defend the thesis. The thesis document should be prepared in a format compliant with University standards. (See
Graduate School Policy 02.26.12.02
.) The student should provide her/his committee with a copy of the completed thesis at least two weeks before the date of the thesis defense.
The thesis is scheduled during a regular academic semester, including summer semesters. It should not be scheduled during study days, final exams, or the breaks between semesters. The student should arrange for, and post an announcement of, the thesis defense at least 10 days in advance of the defense. Furthermore, if the student is to graduate in the same semester that s/he defends the thesis, the defense should be scheduled about two months before the end of the semester to allow both for document revisions and for the one-month lead time required by the Graduate School to process the text of the thesis.
The thesis defense is an open College seminar in which the student presents the concepts and results of her/his research. Normally, this presentation is immediately followed by a meeting of the thesis committee, which closely examines the student's research. The committee can accept the thesis as provided, accept the thesis with revisions, or not accept the thesis. If the thesis is accepted, the committee jointly decides on a letter grade for Thesis II. If the thesis is not accepted, but the committee decides to not fail the student: (a) an "R" grade is assigned to Thesis II; (b) the student registers in each subsequent semester for one credit of ENGR 9991: Directed Research until s/he is again prepared to attempt the defense; and (c) the entire open-seminar defense procedure described above is carried out in the semester that the student is prepared to defend the thesis.
The project is the culminating event in the Project Track. It is normally carried out in the student's last semester of study. The student selects an advisor (usually a full-time faculty member in the Bioengineering Department), registers for ENGR 9995: Project, and conducts a one-semester research activity under the supervision of the advisor. Near the end of the semester, the student prepares a report of her/his findings and presents the study in an open departmental seminar. Both the seminar and the written report are used to determine the student's grade for ENGR 9995. The grade is jointly determined by the advisor and a second grader selected by the Bioengineering Graduate Program Director, as recorded in the Plan of Study.
No culminating event is warranted for the Coursework Track.
Program Contact Information:
ATTN: Bioengineering Programs
College of Engineering
1947 North 12th Street
Philadelphia, PA 19122
Graduate Program Director:
Peter Lelkes, Ph.D.
Peter Lelkes, Ph.D.
About the Program
The M.S. in Bioengineering program offers students graduate-level interdisciplinary education and research opportunities in bioengineering and engineering applications in related healthcare fields. The program offers concentrations in Bioelectronics, Biomaterials, and Biomechanics. Graduates of the program are prepared for careers in industry or may choose to pursue a program of study leading to the Ph.D. degree. The program offers research opportunities in collaboration with faculty in the College of Science and Technology and the School of Medicine.
Time Limit for Degree Completion: 5 years
Students may also take a significant number of required and elective courses at the Health Sciences Center campus.
Students are able to complete the degree program on a part-time basis (8 credit hours or less per semester). Students are also able to complete the degree program on a part-time basis (8 credit hours or less per semester).
ATTN: Bioengineering Programs
College of Engineering
1947 North 12th Street
Philadelphia, PA 19122
The program encourages interdisciplinary research with other branches
of engineering as well as with various departments of the College of
Science and Technology and the School of Medicine.
Areas of Specialization:
Three areas of specialization
are available: Bioelectronics, Biomaterials,
and Biomechanics. Research in Bioelectronics
includes sensor development and
image analysis. Research in
Biomaterials includes wear of ultra-high
molecular weight polyethylene, polymer
chemistry, and interfacial chemistry. Research in
Biomechanics includes computer-aided design of composite biomaterials,
mechanical properties of orthopedic
implant materials, design of orthopedic
implants, and modeling of biomaterial
Graduates with the M.S. in Bioengineering are employed in a variety of biomedical industries ranging from device manufacturers to design engineering. Other possibilities include careers in government, either in regulatory agencies or with the U.S. Patent and Trademark Office. Students who complete an M.S. in Bioengineering with a thesis are prepared to enter a doctoral program.
Non-Matriculated Student Policy:
Up to 9 credits of graduate Engineering coursework may be taken at Temple University on a non-matriculated basis and subsequently applied to the M.S. in Bioengineering degree upon admission. If the applicant's undergraduate GPA was less than 3.0, a GPA of 3.25 or better is required on this non-matriculated graduate coursework to receive an admissions exception. Consequently, the Bioengineering Graduate Program Director may encourage those with an undergraduate GPA less than 3.0 to take their first three graduate courses prior to making formal application to the M.S. in Bioengineering program. (See the relevant Graduate School policies on special admission procedures for non-matriculated students:
Three forms of financial aid are offered to graduate students:
1. Teaching Assistantship (TA): TA awards are made solely by the Department and require the awardee to work 20 hours per week in support of the Department's undergraduate programs. The TA is compensated with a 9-month stipend, a basic health-insurance plan, and 9 credits per semester of tuition remission.
2. Research Assistantship (RA): Individual Bioengineering faculty confer RA awards, using their research funds, upon students who appear well-qualified to carry out the research. Typically, this faculty member becomes the RA's Thesis advisor. The RA normally works up to 20 hours per week and is compensated with a stipend, basic health insurance, and tuition remission.
3. Fellowships: These highly competitive University-wide grants are typically awarded only to Ph.D.-program applicants. See the
program description for details.