Process Engineer

Gayatri Bhagawat

****, ***** **** ****#***, Houston, TX 77054

************@*****.**.** contact: 281-***-****

Objective: To seek a position in the field of Electrical Engineering

Education:

MEE in Electrical Engineering, Specification: Microelectronics, GPA : 3.5 / 4.0

Cullen College of Engineering, University of Houston, Houston, TX,

Expected Graduation: Spring 2012

BE (Bachelors of Engineering) in Electrical Engineering,

Top 10% of the class

P. V. G.' S College of Engineering and Technology, Maharashtra, Pune, India

2009

Work Experience:

Instructional Assistant September 2011 to present

University of Houston - Houston, TX

CRLA certified Tutor of 'Engineering Physics’, ‘Calculus’ ,Electrical Circuits’, ‘Controls’, ‘Semiconductor Physics’.

Sourcing Manager Intern March 2010 to June 2010

Cummins India Limited (Fortune 500 Company)- Pune, Maharashtra, India

Profile: Selected of vendors according to company requirements, Created Catalogs of selected Vendors, Organized e-sourcing events & Negotiations, Wrote reports of all the negotiations and e-sourcing Events.

MEE Project:

The project focuses on fabrication processes used for BioMEMS.It is a part of a two larger projects related to:

1. For Diabetes I, we are trying to implant islets in the human body. Islets produce insulin. Islets need blood vessels to survive. Blood vessels can be grown on TiB2 (Titanium di boride). So we are trying to deposit TiB2 in grooves of porous silicon. TiB2 will hold blood vessels in the grooves of porous silicon, and when implanted in the human body, porous silicon will dissolve eventually. The main challenge here is the integration of TiB2 patterns with porous silicon fabrication, since they use incompatible etching steps. Here, the process sequence should be reversed /modified from the traditional process flow of thin film deposition: start with etching porous silicon using thin Si wafers, deposit the polyimide layer at the back for mechanical stabilization, deposit a thin TiB2 layer and pattern on porous silicon, strip polyimide, and culture the cells

2. Mitochondrial dysfunctions are causes of degenerative diseases, heart attacks and aging. These dysfunctions are tested by measuring inner membrane potential by using BioMEMS with specially designed electrodes and microfluidic chambers.

Relevant Course Work: Integrated Circuit Engineering: Lithography, Oxidation, Diffusion, Wet Etching, Back end & Front End Process, Metallization, SILVACO simulations Process Integration: process flow & integration of processes of PN junction BJT, MOSFET, Scaling of contacts, SILVACO simulations Advanced MOS devices: , Nanoscale Fabrication and Design: Vacuum Pumps, Etching processes, Bosch Process, All types of Chemical Deposition processes, Mathematical modeling & Optimization of Optical & E-beam Lithography tools according to requirements, Python Programming VLSI Design, Micro-processors & Microcontrollers, Project Management, Supply Chain Management

Skills: Well Experienced in RTD, e-beam and photo lithography, CMP, dry and wet etching, CVD, SEM, AFM . Good knowledge of software LINUX, SILVACO, ARIBA, MATLAB, MATHEMATICA, PYTHON, MICROSOFT PROJECT & MICROSOFT POWER POINT, MICROSOFT WORD, Programming: Assembly language, C programming,

Awards

Scholarship awarded by University of Houston August 2010

Additional Information

Language Skills- Fluent in English, Hindi, Urdu, Marathi and Sanskrit, Good knowledge of German

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