Professional Overview
Recent graduate with excellent research, time management and problem solving skills seeking a challenging position in a dynamic
environment with opportunity for growth and advancement. Innovative Biomedical Engineer who improves development plan
execution by consistently creating new formulations and new measurement techniques. Thorough, detail- and process-oriented, strong
follow-through skills. Known for analyzing a situation and quickly implementing innovative resolutions.
Core Qualifications
Lab maintenance, Excellent research skills, Detail oriented, Microsoft Word, Excel, Technical writing, PowerPoint , Multisim, X86
Assembly, C, AutoCAD, LabView, MATLAB
Education
Master of Science, Biomedical Engineering, New Jersey Institute of Technology (January 2015)
Coursework in Biomedical Signals and Data Acquisition, Virtual Medical Instrumentation, BioMEMs Design&Application, Cell
and Molecular Tissue Engineering, Advanced Characterization of Biomaterials
Master of Science, Nuclear Physics, Istanbul Technical University
Coursework in Nondestructive Activation Analyses, Environmental Radioactivity and Measurement Techniques, Industrial
Application of Nuclear Techniques
Bachelor of Science, Physics, Anatolian University
Coursework in Semiconductors, Solid State Physics, Quantum Physics, Nuclear Physics, Instrumental Analyses
Thesis/Dissertation
Masters Dissertation: " Determination of Gross Alpha and Gross Beta Radioactivity Level of Different Kinds of Marbles " examines
the different approaches to capable of eliminating the background radiation and detecting the alpha and beta radiations from marble
samples collected from different regions in the country, using Geiger counters and special software. In the time that was spent in a
laboratory setting, I was able to develop important experimental skills and laboratory techniques, which include labeling, utilizing
different kinds of tools and instruments, and drafting sketches of step by step experimental procedures.
B.S Thesis Project : " Theory of Chaos " examines the different approaches to how a small change in initial conditions can drastically
alter the long-term behavior of physical systems. For example, the electrochemical signals in the heart indicating unpredictability, or
chaos can trigger a heart attack and also, a reduced standard deviation of heartbeat intervals can lead to increased mortality.
Experience
Research Scientist, Neurorehabilitation Laboratory, NJIT
September 2013 to January 2015
Project: “Medical Applications of Collagen Based Biomaterials in Tissue Engineering ”
Analyzed distribution and function of various collagen types in different tissues to understand collagen related diseases.
Focused on collagen features as low immunogenicity, biodegradability, and large scale isolation.
Performed engineering calculations, advanced data analysis, signal processing and statistics techniques (Matlab,R,SPSS)
Analyzed and interpreted experimental data and made recommendations such as approval or rejection of collagen biomaterials
based on results.
Grant writing protocols in neuroscience/engineering fields (Federal, state,private)Research Assistant, Neural Interface Laboratory, NJIT
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