Position within the field of Electrochemistry, Physical chemistry, Material science, Chemical & mechanical engineering, Analytical chemistry, with emphasis on Battery kinetics and thermodynamics, design & instrumentation.
Interested in the areas of green energy researches, such as Battery, Fuel cells,, Chemical reaction modeling (Alternative fuels), Energy/Electrochemical Storage, Material Science, R & D Scientist
Fonx's Resume
Objective:
Position within the field of Electrochemistry, Physical chemistry, Material science, Chemical & mechanical engineering, Analytical chemistry, with emphasis on Battery kinetics and thermodynamics, design & instrumentation.
Interested in the areas of green energy researches, such as Battery, Fuel cells,, Chemical reaction modeling (Alternative fuels), Energy/Electrochemical Storage, Material Science, R & D Scientist
Research and interesting areas
Electrochemistry ( >5 yrs)
Fuel cells (PAFC, AFC, SOFC, PEMFC) , and
Batteries ( Li-Polymer, Ni-MH, Zn/MnO2, Pb/PbO2 etc)
Design, manufacture and Building: Catalysts, Electrodes, Unit Cells and Stacks.
Corrosion, Carbon powder manipulation.
Electroplating and Electro-less plating . .
Surface science
Electrochemical synthesis of conductive polymer
Materials Science /Physical Chemistry
MEMS: Micro-cantilever sensor system : Measurement of trace chemicals
Reaction Kinetics and thermodynamics of battery and solubility of metal oxide in solution Designed and Built Modified Atomic Force Microscope.
Chemical Kinetics and Thermodynamics
Critical phenomena of binary solutions at consolute point.
Crystallization of protein
Metal oxide Solubility and Metal particle growths in solution.
Analytical Chemistry
Self operation: ICP, XRD, GC/MS, Potentiostat, AC impedance(FRA), AFM(SPM), SEM-EDX, FT-IR, AA, DSC,TGA, CVD, PVD, BET, Hg Porosimetr, Ellipsometry etc. and
most of wet chemistry techniques.
Mechanical/Chemical Engineering
Chem CAD, Auto CAD, Solidworks, Pro-Engineering.
Skills
1.Excellent hands-on job
2.Most of (electro)chemical /chemical engineering techniques
3.Kinetic and thermodynamics
4.Problem solving
5.Solidworks, Pro-E
6.Electrochemistry, materials science, chemical /mechanical engineering
Education
Doctor of philosophy 2 (1998~ 2001): Materials Science.
Institution: Univ. of Alabama in Huntsville (UAH).
Course work (1994~ 1996) : Analytical chemistry
Institution: Chemistry Dept., Univ. of Alabama in Tuscaloosa (UA).
Doctor of philosophy 1 (1990~ 1994): Industrial Chemistry (Electrochemistry)
Institution: Engineering Dept., Han-Yang University, Seoul, Korea.
MS of Engineering (1986~ 1988):Industrial Chemistry (Chemical engineering &
Electrochemistry)
Institution: Engineering Dept., Han-Yang University, Seoul, Korea
Employment History:
Algenol Bio-fuel (02/2009~ 02/2010): Chemical Engineer
DRS (www.drs.com)(06/2006- 02/2009): Advanced power generation / Scientist.
University of Alabama in Huntsville (06/2001- 06/2006): Senior Researcher /
Teacher / Consultant.
Achievements
Designed and built a lot of electrochemical systems by my own idea and by myself.
Most of battery components and 100W fuel cell stack with original idea
Designed and built a lot of unique instruments by my own idea and by myself.
Modified AFM for six cantilever sensor system, unique hydrogen reformer, and other
lots of analytical instruments.
Thesis and Dissertations
1. Thesis: Study on the Perpendicular Magnetic Film
2. Dissertation 1: Study on the Manufacturing of the Phosphoric acid Fuel Cell (1994)
3. Dissertation 2: Chemical Kinetics at the Critical Point of Solution (2001)
Research Projects Finished
7. Fuel Cells and batteries :KIER(5yrs).
8. Crystallization of polymer : Oak Ridge National Lab (1yr).
9. Microcantilever Sensor System : NASA (3 yrs).
10. Casimir force : MEMS optical & Quantum Field LLC (3 yrs).
11. Advanced electric generation system : DRS (3yrs).
Prospective and Goals
Combustion engine and power sources have higher specific energy and specific power than batteries. However as batteries are not subject to the Carnot cycle limitations, they may operate with much higher efficiencies than those by improving follows below and be the best choice for the portable electricity generation devices.
(1) Inert parts of system such as conductive diluents, current collectors,
containers, etc..
(2) Internal resistance within the electrodes and electrolyte, and within
battery components, resulting in internal losses.
(3) Utilization of active masses, passivation of electrodes
To achieve this goals, Technology, Manufacturing Process and Design together take an important role in R & D and business success by improving Performance, Reliability and Appearance and lowering Cost.
Publication; 30 Papers
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