DEVESH DADHICH SHREERAM
***, ****** ****, *** **: 200J, Cincinnati, Ohio-45220
E-Mail: abj3hf@r.postjobfree.com, Mobile: 513-***-****
EDUCATION
Master of Science-Materials Science (Aug 2013- May 2015)
University of Cincinnati
Courses: Advanced Thermodynamics, Polymer Fundamentals, Polymer Properties, Diffraction Theory,
Corrosion, Electro fluidics and application, Advanced Material Techniques, Semiconductor Fabrication
Bachelor of Technology- Nanotechnology (Aug 2009- May 2013)
SRM University, India
RESEARCH EXPERIENCE
Prof. Dale Schaefer, Department of Mechanical and Materials Engineering, University of Cincinnati (1)
[Nov 2013 – Present]
1. Water Remediation and Electricity generation (Microbial Fuel Cells)
Performing Electrochemical Impedance and Polarization studies to understand the behaviour of Full
Cell, Anode, Cathode and Electrolytes under various conditions
Preparing LB Media, Inoculating bacteria and performing Chemical Analysis of waste water samples
Prof. S. Dhar, Department of Physics, Indian Institute of Technology-Bombay (2)
[Jan 2013 to Feb 2013]
2. Chemical Vapour Deposition of GaN Nanowires and Thin Films
Project involved setting up the thermal CVD technique in the lab
Growth of GaN Nanowires & Thin Films and characterized using Photoluminescence spectroscopy
Dr. Rajan K. Sahu, CSIR-National Metallurgical Laboratory (3)
[December 2011 to July 2012]
3. Synthesis and Characterization of Graphene by Chemical Route
Reduced-Graphene oxide was synthesized using peanut shaped Fe2O3 particles as photo-catalyst
Capsule like Structures were observed and studied using various techniques
4. Theoretical and Experimental study of Transition Elemental Doped Oxide Based Permanent Magnets
Transition metal doped SrFe12O19 samples were prepared using solid state and microwave methods
Magnetic and Photocatalytic degradation studies were performed
RESEARCH PUBLICATIONS:
1. Y.N. Singhbabu, K.K. Sahu, D. Dadhich, A. Pramanick, T. Mishra and R.K. Sahu “Capsules-embedded
reduced graphene oxide: Synthesis, mechanism and electrical properties”, J. Mater. Chem. C, 2013, 1,
958-966.
2. O. Mohanta, Y.N. Singhbabu, S.K. Giri, D. Dadhich, N.N. Das, R.K. Sahu “Degradation of Congo red
pollutants using microwave derived SrFe12O19: An efficient magnetic photocatalyst under visible light”,
Journal of Alloys and Compounds, 2013, 564, 78-83.
ADDITIONAL KNOWLEDGE:
Igor and Origin for Data Management, Gamry for Electrochemical studies, X-Ray Diffraction, X-Ray
Reflectivity, X-ray Photoelectron Spectroscopy, Scanning and Tunneling Electron Microscopy, Atomic
Force Microscopy, Contact Angle, Rheometer, DSC, TGA, etc.