Rama Bansil: expert in gels, biopolymer engineering, polymer engineering, and biochemistry.

Rama Bansil

	Dr. Rama Bansil is a leading researcher in the property of gels. Her multi-disciplinary expertise includes the fields of biophysics, biochemistry, biopolymer engineering, polymer engineering, photonics, nanoscience, and nanobiotechnology.

Dr. Bansil has more than 35 years' experience as a polymer expert, with publications in the field dating back to 1976. Her most recent research has focused on the molecular structure of gels, the physics of gel formation, diffusion in gels and the kinetics of phase transitions and chemical reactions in gels. She is currently Professor of Phyics at Boston University, a post she had held since 1997. She has served as an expert witness in intellectual properties litigation and is a sought-after consultant. <h2>Areas of Expertise</h2> H. pylori, Liesegang phenomenon, Polymer Physics and Engineering, Polymer Process Monitoring, absorbent material, adhesive material, aerogel, amorphous polymer, biopolymer engineering, block copolymer, block copolymer gel, colloid physics, diffusion in gels, dynamic light scattering, engineering thermoplastic, fiber processing, fluid flow measurement, fluid rheology measurement, food colloids, food gelatin, free electrophoresis, gel cement, gel chemical reaction, gel coat, gel dispensing equipment, gel electrophoresis, gel formulation, gel permeation chromatography, gel rheological measurement, gel viscosity, gelation, gels, glycoprotein, high-performance polymer, high-polymer structure-property relationship, homopolymer, hydrocolloid, hydrogel, hydrophilic polymer, index-matching gel, interpenetrating polymer network, laser light scattering, light scattering, lipids, liquid rheological measurement, lubricant dispensing, melt rheology, melt viscosity, microcellular foam, microporous ceramic, molecular dynamics simulation, molecular exclusion chromatography, mucin, mucin gel, mucin rheology, mucoadhesion, mucus rheology, neutron scattering, non-Newtonian fluid rheology, open-cell foam, optical fiber, optical microscopy, organic/inorganic sol-gel nanocomposite material, particle sizing, particle tracking, pesticide gel, polyether polyol aqueous gel, polymer alloy, polymer alloying, polymer application, polymer blend, polymer blending, polymer chemistry, polymer coating material, polymer colorant, polymer compatibility, polymer compounding, polymer crosslinking, polymer degradation, polymer flow, polymer gel, polymer heat transfer, polymer heating, polymer manufacturing technology transfer, polymer mechanical property, polymer modification, polymer processing, polymer property, polymer recycling, polymer rheology, polymer science, polymer selection, polymer sheet, polymer sheet forming, polymer structure, polymer structure-property relationship, polymer technology, polymer testing, polymeric material, post consumer plastic recycling, protein aggregation, protein gelation, pulse field gel electrophoresis, rubber chemistry, rubber vulcanization, rubber-based paint, silica gel, silicone gel, sol-gel coating material, sol-gel fluoride glass synthesis, sol-gel glass, sol-gel processing, sol-gel-produced ceramic membrane, sol-gel-produced ferroelectric thin film, sol-gel-produced solid electrolyte, structural foam, surfactant, synthetic latex, synthetic latex, thermal degradation, thermoplastic foam, thermoplastic foam processing, thermoplastic gel, thermoset polymer recycling, triblock copolymer gels, water-based coating material, x-ray scattering