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B. V. R. Tata
Researcher at Indira Gandhi Centre for Atomic Research
Publications - 79
Citations - 1536
B. V. R. Tata is an academic researcher from Indira Gandhi Centre for Atomic Research. The author has contributed to research in topics: Dynamic light scattering & Phase (matter). The author has an hindex of 21, co-authored 77 publications receiving 1419 citations. Previous affiliations of B. V. R. Tata include University of Hyderabad.
Papers
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Journal ArticleDOI
Bioreduction of Cr(VI) by alkaliphilic Bacillus subtilis and interaction of the membrane groups
TL;DR: The kinetics of Cr(VI) reduction activity derived using the monod equation proved high affinity of the organism to the metal and helped to localize the reduction activity at subcellular level in a chromium resistant alkaliphilic Bacillus sp.
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Vapor-liquid condensation in charged colloidal suspensions.
TL;DR: Dilute aqueous polystyrene suspensions are found to exhibit a novel vapor-liquid condensation, which strongly suggests net attraction between particles at interparticle separation several times the particle diameter.
Book
Ordering and Phase Transitions in Charged Colloids
Akhilesh K. Arora,B. V. R. Tata +1 more
TL;DR: In this paper, the authors provide a blend of experimental and theoretical investigations on colloidal ordering and phase transitions, and provide a discussion of stability and controversy over effective interparticle interaction in charged colloids.
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Interactions, structural ordering and phase transitions in colloidal dispersions
Akhilesh K. Arora,B. V. R. Tata +1 more
TL;DR: The structural ordering in colloidal dispersions is found to be very similar to that of atomic systems, such as crystalline solids, atomic liquids and even glasses as mentioned in this paper, and a number of intrinsic as well as extrinsic parameters influence the stability of colloids and induce transitions between different phases.
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Confocal laser scanning microscopy: Applications in material science and technology
B. V. R. Tata,Baldev Raj +1 more
TL;DR: The use of confocal laser scanning microscopy (CLSM) has been shown to be useful in a wide range of applications, such as phase separation in binary polymer mixtures, fracture toughness in alloys, in determining residual strains in fibre-reinforced metal composites, and in microvisualization of corrosion.