2016 - Sparks-Thomas award, American Chemical Society (ACS)
Amit Das mostly deals with Composite material, Natural rubber, Nanocomposite, Elastomer and Carbon nanotube. His study in Composite material is interdisciplinary in nature, drawing from both Hydroxide and Percolation. His research integrates issues of Composite number, Transmission electron microscopy, Dispersion and Dynamic mechanical analysis in his study of Natural rubber.
His biological study spans a wide range of topics, including Curing, Montmorillonite, Percolation threshold and Halloysite. His Elastomer study combines topics in areas such as Ionic bonding, Organoclay, Polymer and Nitrile rubber. As a part of the same scientific study, Amit Das usually deals with the Carbon nanotube, concentrating on Ionic liquid and frequently concerns with Diene, Polybutadiene, Dielectric spectroscopy and Styrene.
Amit Das mainly investigates Composite material, Natural rubber, Elastomer, Nanocomposite and Stereochemistry. His work on Composite material deals in particular with Carbon nanotube, Carbon black, Composite number, Dispersion and Ultimate tensile strength. Amit Das mostly deals with Vulcanization in his studies of Natural rubber.
Amit Das interconnects Ionic bonding, Dielectric, Polymer and Nitrile rubber in the investigation of issues within Elastomer. The study incorporates disciplines such as Active site, Biochemistry, Enzyme, Crystal structure and Hydrogen bond in addition to Stereochemistry. Within one scientific family, he focuses on topics pertaining to Crystallization under Crystallography, and may sometimes address concerns connected to X-ray crystallography.
His primary areas of investigation include Composite material, Natural rubber, Elastomer, Chemical engineering and Composite number. His work deals with themes such as Ultimate tensile strength, Styrene-butadiene, Dielectric and Filler, which intersect with Natural rubber. In his research on the topic of Elastomer, Copolymer and Acrylonitrile is strongly related with Vulcanization.
His Chemical engineering research includes elements of Supercapacitor and Electrode. Amit Das works mostly in the field of Composite number, limiting it down to topics relating to Dynamic modulus and, in certain cases, Raman spectroscopy, as a part of the same area of interest. His work in Nanocomposite tackles topics such as Virus which are related to areas like Graphene.
Amit Das mainly focuses on Composite material, Natural rubber, Chemical engineering, Elastomer and Composite number. Amit Das integrates Composite material with Short circuit in his study. The Natural rubber study combines topics in areas such as Copolymer, Acrylonitrile, Fourier transform infrared spectroscopy, Styrene-butadiene and Calcium carbonate.
His work on Thermogravimetric analysis as part of general Chemical engineering research is frequently linked to Fluoride, thereby connecting diverse disciplines of science. His studies deal with areas such as Matrix and Catalysis as well as Elastomer. His Composite number study incorporates themes from Photodetector, Responsivity, Curing and Aerogel.
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The structure of the tetratricopeptide repeats of protein phosphatase 5: implications for TPR-mediated protein-protein interactions
Amit K. Das;Patricia T.W. Cohen;David Barford.
The EMBO Journal (1998)
The Crystal Structure of Human Eukaryotic Release Factor eRF1—Mechanism of Stop Codon Recognition and Peptidyl-tRNA Hydrolysis
Haiwei Song;Haiwei Song;Pierre M. Mugnier;Amit K. Das;Helen M. Webb.
Cell (2000)
Crystal structure of the protein serine/threonine phosphatase 2C at 2.0 A resolution.
A. K. Das;N. R. Helps;P. T. W. Cohen;D. Barford.
The EMBO Journal (1996)
Modified and unmodified multiwalled carbon nanotubes in high performance solution-styrene-butadiene and butadiene rubber blends
A. Das;K.W. Stöckelhuber;R. Jurk;M. Saphiannikova.
Polymer (2008)
Preparation and properties of natural nanocomposites based on natural rubber and naturally occurring halloysite nanotubes
Sandip Rooj;Amit Das;Varun Thakur;R.N. Mahaling.
Materials & Design (2010)
Ionic Modification Turns Commercial Rubber into a Self-Healing Material.
Amit Das;Amit Das;Aladdin Sallat;Aladdin Sallat;Frank Böhme;Marcus Suckow;Marcus Suckow.
ACS Applied Materials & Interfaces (2015)
Advances in layered double hydroxide (LDH)-based elastomer composites
Debdipta Basu;Debdipta Basu;Amit Das;Amit Das;Klaus Werner Stöckelhuber;Udo Wagenknecht.
Progress in Polymer Science (2014)
Crystal structure of the tumor-promoter okadaic acid bound to protein phosphatase-1.
Jason T. Maynes;Katherine S. Bateman;Maia M. Cherney;Amit K. Das.
Journal of Biological Chemistry (2001)
Rubber composites based on graphene nanoplatelets, expanded graphite, carbon nanotubes and their combination: A comparative study
Amit Das;Gaurav R. Kasaliwal;René Jurk;Regine Boldt.
Composites Science and Technology (2012)
Nanocomposites based on chloroprene rubber: Effect of chemical nature and organic modification of nanoclay on the vulcanizate properties
Amit Das;Francis Reny Costa;Udo Wagenknecht;Gert Heinrich.
European Polymer Journal (2008)
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Publications: 15
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