• Gender: Male
• Age: 43
• Designation: Executive
• Highest Education Level: Doctrate
• Notice Period: 30  Days
• Work Experience: 10 Year(s)

Education

Ph.D. (Polymer Chemistry) From Tezpur University (Central), India in 2014

M.Sc.(Nanoscience and Technology) From Tezpur University(Central), India in 2008

B.Sc (Chemistry) From Guwahati University, Assam, India in 2005

H.S.C. From Assam higher secondary education council, Assam, India in 2001

S.S.C. From Board of secondary education Assam, India in 1998

Skill Sets

Analytical and Instrumental Skills:
UV-visible spectroscopy, FTIR spectroscopy, Powder X-ray diffractometer (XRD), NMR, Scanning electron microscope (SEM), Transmission electron microscope (TEM), Universal testing machine (UTM), Rheology, Gloss meter, Scratch hardness tester, Impact resistance tester, TGA, DSC, DMA, Electro spinning and wet spinning techniques etc. 

Computational skills: 
Software- origin, MS-office, Chemdraw

Work Experience

Research Associate
2 Years
Company Profile: A leading Institution
Job Profile:
Writing project proposal
Guiding research student 
Instrument handling

Expert field:
Synthesis of Polymer (Polyurethane, Epoxy, Acrylic etc.)
Coating and adhesive polymers 
Polymer nano composites
Nano materials

Qualified GATE-2010 (Graduate aptitude test of engineering), Subject-Chemistry

Project: 
Development of Polyurethane nanocomposites as smart materials (Department of Science and Technology, DST project, 3 years)

International Publications: 
H. Kalita and N. Karak, Bio-based Hyperbranched Shape Memory Polyurethanes: Effect of Different Vegetable Oils. Journal of Applied Polymer Science, 131, 39579-39586, 2014.

H. Kalita and N. Karak, Epoxy modified bio-based hyperbranched polyurethane thermosets. Designed Monomers and Polymers, 16, 447-455, 2012.

H. Kalita and N. Karak, Bio-based elastomeric hyperbranched polyurethanes for shape memory application. Iranian Polymer journal, 21, 263-271, 2012.

H. Kalita and N. Karak, Mesua-ferrea L. seed oil based hyperbranched polyurethanes as shape memory materials: Effect of multifunctional component. Polymer Engineering and Science, 52, 2454-2461, 2012.

H. Kalita and N. Karak, Bio-based hyperbranched polyurethane/Fe3O4 nanocomposites as shape memory materials. Polymer for Advanched Technology, 24, 819-823, 2013.

H. Kalita and N. Karak, Bio-based hyperbranched polyurethane/multi-walled carbon nanotube nanocomposites as shape memory materials, Polymer Composites, DOI: 10.1002/pc.22705.

Future Goals

Seeking an opportunity in polymer chemistry (R & D division) to utilize my skills and abilities that offer professional growth while being resourceful, innovative and flexible