Program Overview

Introduction to the NanoEngineering Master’s Degree Program

The NanoEngineering Master’s Degree Program is an exciting field that enables solutions in alternative energy, medical diagnostics, and therapeutics, next-generation wireless communications. This program prepares students to take leadership roles in emerging high-tech industries as well as traditional industries that exploit nanoscale phenomena. The program is intended to extend and broaden an undergraduate education with fundamental knowledge in different areas.

Program Overview

Students will have the opportunity to work in the following focus areas:

• Biomedical Nanotechnology
• Molecular & NanoMaterials
• Nanotechnologies for Energy and the Environment The degree may be terminal, or obtained on the way to the Ph.D.

Program Structure

M.S. Students in NanoEngineering at UC San Diego have the option to conduct research with a faculty member while taking classes culminating in a Master’s Thesis (Plan I), or the option to focus on specifically designed coursework curriculum culminating in a Comprehensive Examination (Plan II).

Plan I: Thesis Plan

The M.S. Thesis Plan is designed for those students with an interest in research and requires the student to be accepted by a CENG/NANO faculty member stating they will be the thesis research advisor. This plan involves coursework leading to the completion and defense of a Master's thesis. The thesis defense is the final examination for students enrolled in the M.S. Thesis Plan and must be conducted after completion of all the coursework.

Coursework Requirements

1. All students must complete a total of thirty-six (36) units

• Five (5) required core courses (NANO 201, NANO 202, NANO 203, NANO 205, NANO 206 - 20 units)
• One (1) elective, 4 units, from any focus area selected from the approved list of graduate courses or upper division courses (limited to a total maximum of 12 units upper division courses)
  • Any courses that are not from Jacobs School of Engineering (JSOE), sciences, or math, graduate or upper division level courses, must be approved by the Graduate Affairs Committee (GAC), prior to enrollment
• 12 units of NANO 299 (Graduate Research). Students will continue to enroll in NANO 299 as long as they are doing research

2. Students must enroll in NANO 200 every quarter. NANO 200 units do not count toward the total unit requirement for the degree.
3. Thesis Plan students must secure a thesis faculty advisor before enrolling in 299 courses. They must also pass a thesis examination presented to a Thesis Committee
4. Students must meet M.S. requirements established by the University and the Department

First Year Sample Enrollment: Thesis Plan

FALL | WINTER | SPRING
---|---|---
NANO 200 | NANO 200 | NANO 200
NANO 201 - Core | NANO 203 - Core | NANO 299 (12 units)
NANO 202 - Core | NANO 205 - Core |
Elective | NANO 206 - Core |

Second Year Sample Enrollment: Thesis Plan (if needed)

The Thesis Track Plan typically takes about 1.5 - 2 years depending on how soon a student is able to complete their research, thesis, and defense. FALL | WINTER (as needed) | SPRING (as needed)
---|---|---
NANO 200 | NANO 200 | NANO 200
NANO 299 (12 units) | NANO 299 (12 units) | NANO 299 (12 units)

Thesis Defense Requirements

1. The M.S. Thesis Committee must be constituted and approved by GEPA before a student can defend their Thesis. The committee should have three (3) members: the thesis faculty advisor should be the committee chair, and 2 members must be from the CENG/NANO department (committee chair and another member)
2. Students must submit the M.S. Thesis Plan Form and notify Graduate Advising, by the second week of the quarter if they plan to advance to M.S. candidacy. If a student has already advanced to M.S. candidacy and will be defending their M.S. Thesis, they must submit the M.S. Thesis Plan Form at least 4-5 weeks prior to the Thesis Exam date.
3. Master’s thesis procedures can be found here. It is advised for Thesis students to plan ahead and make their preliminary and final review appointments with GEPA on the calendar as soon as they can for the quarter they want to graduate (these appointments are required by GEPA). Students do not have to wait until their paper is complete (at least 90%).
4. Dissertation & Thesis Submission

Plan II: Comprehensive Exam Plan

The M.S. Comprehensive Exam Plan involves coursework only and culminates in a written comprehensive examination based on topics selected from the five (5) core courses

Coursework Requirements

1. All students must complete a total of thirty-six (36) units

• Five (5) required core courses (NANO 201, NANO 202, NANO 203, NANO 205, NANO 206 - 20 units)
• Four (4) electives, 16 units, from any focus area selected from the approved list of graduate courses or upper division courses (limited to a total maximum of 12 units upper division courses)
  • Any courses that are not JSOE engineering, sciences, or math, graduate or upper division level courses, must be approved by the Graduate Affairs Committee (GAC), prior to enrollment
  • No more than a total of eight (8) units of NANO 298 may be applied toward the coursework requirement
  • 299 does not meet this requirement

2. Students must enroll in NANO 200 every quarter. NANO 200 units do not count toward the total unit requirement for the degree.
3. The Comprehensive Exam will be incorporated directly into the core courses, and instructors will determine how students are tested on the comprehensive exam component.

First Year Sample Enrollment: Comprehensive Exam Plan

FALL | WINTER | SPRING
---|---|---
NANO 200 | NANO 200 | NANO 200
NANO 201 - Core | NANO 203 - Core | Elective
NANO 202 - Core | NANO 205 - Core | Elective
Elective | NANO 206 - Core | Elective

Focus Areas & Courses

The program offers the following focus areas:

• Focus Area 1 - Biomedical Nanotechnology: NANO 210, 241, 242, 243, 244, 247A, 247B, 247C, 252, 262, 272, 273
• Focus Area 2 - Molecular & Nanomaterials: NANO 204, 212, 227, 230, 234, 238, 241, 242, 250, 251A, 252, 253, 255, 256, 257, 263, 264, 265, 267, 268, 271, 275, 280, 281
• Focus Area 3 - Nanotechnologies for Energy and the Environment: NANO 212, 241, 245, 255, 257, 258, 259, 260, 261, 266, 267, 269, 279
• Non-Focus Area Electives: NANO 282

Change of Degree

Upon completion of the M.S. degree requirements, students are not automatically eligible for admission to the Nano Engineering Ph.D. Program. Students who wish to pursue a doctorate must find a faculty advisor who will serve as the student’s Ph.D. advisor and provide financial support, and notify the Graduate Coordinator. The faculty advisor needs to be a faculty member from the department. If you have a faculty advisor from another department, a co-advisor from Nano Engineering is still needed. The Graduate Coordinator will verify the advisor’s role, financial support, and effective quarter and year of the degree aim change, and submit the request to the Graduate Affairs Committee for approval. Note: Students must pass the Comprehensive Exam with at least 70%, in each course component, to be eligible for the transition process.