Jeremy Bregman jbregman@stanford.edu

Present Address: Permanent Address: 576 Alvarado Row 37 Stonewall Circle Stanford, CA 94305 Princeton, NJ 08540 (201)-618-4677

EDUCATION: GPA: 3.66 Stanford University, Stanford, CA [9/14-Present] Masters of Science: Major degree candidate in Electrical Engineering, Electronic Devices/Sensors & Lasers/Optoelectronics split focus, expected March 2016 Coursework: EE 216 Semiconductor Device Physics EE 222 Applied Quantum Mechanics I EE 292L Nanomanufacturing EE 234 Photonics Laboratory EE331 Biophotonics (Winter) EE316 Advanced VLSI Devices (Winter) Final GPA: 3.65 Stanford University, Stanford, CA [9/11-6/14] Bachelor of Science: Major degree in Electrical Engineering (Completed)

Photonics, Solid State, and Electromagnetics focus Coursework: Maxwells Equations, I.C. Fabrication, Introduction to Photonics,

Nanophotonics/structures, Nanomaterials + Devices Laboratory

WORK EXPERIENCE: Teaching Assistant Engr40: Introductory Electronics [1/5 Present]

Overview of circuits and their applications, basic models for circuit components and design of filters/amplifiers

Leads Office Hours to answer student question and guide problem solving for upcoming homeworks + exams

Responsible for lab sessions where students design audio amplifiers and explore IC devices such as op-amps and 555timers

Engineer - Banpil Photonics Santa Clara, California [6/14-10/14]

Design and Characterization of SW-IR photonic devices for multispectral imaging and optical interconnect application

Worked independently to set up electrical + optical characterization methods and interpret results for die-level devices Undergraduate Research Dept. of Electrical Engineering, Stanford University [6/12-3/14] Carbon Nanotube Field-Effect Transistors

Worked in collaboration with a Ph.D candidate from Prof. Phillip Wongs group to improve density and horizontal alignment of Single-walled CNTS through Chemical Vapor Deposition growth processes

Responsible for device fabrication and structural/electrical characterization to achieve CMOS-comparable drive current

Silicon Thin-Film Solar Cells Worked as a team of three students to maximize device efficiency in solar cells in Prof. James Harris research laboratory

Specifically optimized the transparency and sheet resistance of a nanopatterened top metallic electrode to replace Indium Tin Oxide as contact material to reduce device cost without sacrificing performance

Directly responsible for simulation of electrical and optical characteristics, and then verification with experimental device fabrication and testing in the Stanford Nanofabrication Facilities (clean room)

Cladding Injected Photonic Crystal Laser design Project included designing and optimizing a GaAs-based photonic crystal waveguide capable of low-threshold voltage lasing

Independent device physics simulations conducted using Synopsis Stenaurus program

Introduced to clean-room GaAs-based processing, and performed wet-etch experiments for device fabrication

Directly contributed to modification of waveguide epitaxy to maximize both optical and electrical confinement

Weizmann Institute of Science, Rehovot, Israel [7/11-9/11]

Awarded a scholarship to attend Dr. Bessie F. Lawrence International Summer Science Institute. Worked in an organic chemistry lab, investigating the optical properties of gold nanoparticle (AuNP) assemblies Collaborated with lab partners and mentors to synthesize AuNPs both in water and organic solvent and analyzed using

UV/vis, NMR, TEM, and SEM techniques.

Research Assistant, Dept. of Electrical Engineering, Princeton University [7/10-5/11] Secured critical data for the optimization of solution-based Molybdenum TriOxide for hole transport in OLED devices

Responsibilities included device preparation, with analysis using the Mercury Probe, Kelvin Probe, AFM, or IPES/UPS/XPS.

SKILLS: Programming Software: Gwyddion, Sentaurus Device Simulator, FDTD Solutions (Lumerical), PC1D, MatLab, Java, C++, Device Fabrication: Experience working in Stanford Clean Rooms: Optical/E-beam Lithography, Wet/Dry Etching, Metallization, CVD Characterization: Optics Bench, Photodiode quantum Efficiency, Optical Trans/Refl, Diode IV Curve, Solar Cell EQE , SEM, AFM Languages: Proficient in French || Music: Classical Cello (study at Manhattan School of Music, NYC 9 years) RESEARCH CONTRIBUTIONS:

o J. Meyer, R. Khalandovsky, P. Gorn, A. Kahn. Advanced Materials (vol. 23, is. 1, 2010). Aided with device preparation and analysis

o J. Bregman, T. Christiansen, M. Lahav, M. Orbach. M. Van der Boom. ISSI Research Report (2011 Internal) o Y. Chen, Y. Kang, Y. Huo, D. Liang, L. Zhao, J. Jia, J. Kim, L. Yao, J. Bregman, J. Harris. IEEE PVSC-40 (621-A6, 2014) o J. Bregman, R. Nagi, R. Olah, P. Odour, A. K.Dutta SPIE Photonics West Conference Paper (Feb, 2015) [9388-25]

HONORS + AFFILIATIONS:

o Stanford Dept. of El. Engineering: Best Design Project (EE134 Optical Touch Screen) o Stanford Dept. of El. Engineering: Honorable Mention Digital Logic Design Project (EE108a Karaoke Player) o Bessie F. Lawrence InterNatl Summer Science Institute Scholarships (ISSI) || Hubert M. Alyea Award for Chemistry o IEEE Society, Stanford Chapter Co-Chair + Industry Liaison (2013-2014):

Establish relationships with companies and start-ups in Silicon Valley. Organization of Tech Talks and Panel Discussions on campus to Develop student interest in research and industry collaboration.

o Stanford Concert Network Event Coordinator (2012-2014): Production of music events on campus for university-sponsored or student-run activities Collaboration and negotiation with industry representatives to host travelling artists