Your search keyword '"Krishnamurty, Sailaja"' showing total 7 results

1. Stretching the threshold of reversible dynamics in silicon clusters: A case of carbon alloyed Si6.

Author

Nazrulla, Mohammed Azeezulla and Krishnamurty, Sailaja

Subjects

*SILICON alloys, *METAL clusters, *FULLERENES, *METALS at low temperatures, *TRANSMISSION electron microscopy

Abstract

Silicon clusters with 3-50 atoms undergo isomerization/reversible dynamics or structural deformation at significantly lower temperatures of 350 K-500 K. Through Born Oppenheimer Molecular Dynamical (BOMD) simulations, the current study demonstrates that carbon alloying enhances the thermal stability of a silicon cluster. The study is carried out on a Si6 cluster which has been recently reported to undergo reversible dynamical movements using aberration-corrected transmission electron microscopy. Present BOMD simulations validate the experimentally observed reversible atomic displacements (reversible dynamical movements) at finite temperatures which are seen to persist nearly up to 2000 K. Carbon alloying of Si6 is seen to stretch the threshold of reversible dynamics from 200 K to 600 K depending upon the alloying concentration of carbon in the cluster. [ABSTRACT FROM AUTHOR]

Published

2016

2. Stretching the threshold of reversible dynamics in silicon clusters: A case of carbon alloyed Si6.

Author

Nazrulla, Mohammed Azeezulla and Krishnamurty, Sailaja

Subjects

SILICON alloys, METAL clusters, FULLERENES, METALS at low temperatures, TRANSMISSION electron microscopy

Abstract

Silicon clusters with 3-50 atoms undergo isomerization/reversible dynamics or structural deformation at significantly lower temperatures of 350 K-500 K. Through Born Oppenheimer Molecular Dynamical (BOMD) simulations, the current study demonstrates that carbon alloying enhances the thermal stability of a silicon cluster. The study is carried out on a Si6 cluster which has been recently reported to undergo reversible dynamical movements using aberration-corrected transmission electron microscopy. Present BOMD simulations validate the experimentally observed reversible atomic displacements (reversible dynamical movements) at finite temperatures which are seen to persist nearly up to 2000 K. Carbon alloying of Si6 is seen to stretch the threshold of reversible dynamics from 200 K to 600 K depending upon the alloying concentration of carbon in the cluster. [ABSTRACT FROM AUTHOR]

Published

2016

3. Density functional analysis of the structural evolution of Gan (n=30–55) clusters and its influence on the melting characteristics.

Author

Krishnamurty, Sailaja, Joshi, Kavita, Zorriasatein, Shahab, and Kanhere, D. G.

Subjects

*GALLIUM, *DENSITY functionals, *FUSION (Phase transformation), *HEAT, *ATOMS, *CHEMICAL bonds

Abstract

Recent experimental results have reported surprising variations in the shapes of the heat capacity curves and melting temperatures of gallium clusters in the size range of 30–55 atoms [G. A. Breaux et al., J. Am. Chem. Soc. 126, 8628 (2004)]. In the present work, we have carried out an extensive density functional investigation on ten selected clusters in the above mentioned size range. In particular, we have analyzed the ground state geometry and the nature of bonding in these clusters using electron localization function. We demonstrate that the existence or otherwise of a large island of atoms bonded with similar strength (i.e., the local order) in the ground state geometry is responsible for the variation in the shape of the heat capacity curve. We attribute the observed higher melting temperatures of some of the clusters (viz., Ga45–Ga48) to the presence of a distinct core and strong covalent bonds between the core and surface atoms. The present work clearly demonstrates that it is possible to understand the general trends observed in the heat capacity curves across the entire series on the basis of the analysis of their ground state. [ABSTRACT FROM AUTHOR]

Published

2007

4. Density functional investigation of the interaction of acetone with small gold clusters.

Author

Shafai, Ghazal S., Shetty, Sharan, Krishnamurty, Sailaja, Shah, Vaishali, and Kanhere, D. G.

Subjects

DENSITY functionals, ACETONE, ACETALDEHYDE, KETONES, FUNCTIONAL analysis, MOLECULAR spectra

Abstract

The structural evolution of Aun (n=2, 3, 5, 7, 9, and 13) clusters and the adsorption of organic molecules such as acetone, acetaldehyde, and diethyl ketone on these clusters are studied using a density functional method. The detailed study of the adsorption of acetone on the Aun clusters reveals two main points. (1) The acetone molecule interacts with one gold atom of the gold clusters via the carbonyl oxygen. (2) This interaction is mediated through back donation mainly from the spd-hybridized orbitals of the interacting gold atom to the oxygen atom of the acetone molecule. In addition, a hydrogen bond is observed between a hydrogen atom of the methyl group and another gold atom (not involved in the bonding with carbonyl oxygen). Interestingly, the authors notice that the geometries of Au9 and Au13 undergo a significant flattening due to the adsorption of an acetone molecule. They have also investigated the role of the alkyl chain attached to the carbonyl group in the adsorption process by analyzing the interaction of Au13 with acetaldehyde and diethyl ketone. [ABSTRACT FROM AUTHOR]

Published

2007

5. Mulliken population analysis based evaluation of condensed Fukui function indices using fractional molecular charge.

Author

Kinkar Roy, Ram, Hirao, Kimihiko, Krishnamurty, Sailaja, and Pal, Sourav

Subjects

MATHEMATICAL functions, MOLECULES, CHEMICAL systems

Abstract

A thorough study on the nature of Mulliken population analysis (MPA) based condensed Fukui function (FF) indices has been performed. It is claimed analytically that nothing can be predicted about the sign of condensed FF indices, even when evaluated by using very small fractional molecular charge (i.e., approximately following the analytical definition of FF indices). The corresponding numerical demonstrations on different chemical systems confirm our claim. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2001

6. Stretching the threshold of reversible dynamics in silicon clusters: A case of carbon alloyed Si 6 .

Author

Nazrulla MA and Krishnamurty S

Abstract

Silicon clusters with 3-50 atoms undergo isomerization/reversible dynamics or structural deformation at significantly lower temperatures of 350 K-500 K. Through Born Oppenheimer Molecular Dynamical (BOMD) simulations, the current study demonstrates that carbon alloying enhances the thermal stability of a silicon cluster. The study is carried out on a Si 6 cluster which has been recently reported to undergo reversible dynamical movements using aberration-corrected transmission electron microscopy. Present BOMD simulations validate the experimentally observed reversible atomic displacements (reversible dynamical movements) at finite temperatures which are seen to persist nearly up to 2000 K. Carbon alloying of Si 6 is seen to stretch the threshold of reversible dynamics from 200 K to 600 K depending upon the alloying concentration of carbon in the cluster.

Published

2016

7. Density functional analysis of the structural evolution of Gan (n=30-55) clusters and its influence on the melting characteristics.

Author

Krishnamurty S, Joshi K, Zorriasatein S, and Kanhere DG

Abstract

Recent experimental results have reported surprising variations in the shapes of the heat capacity curves and melting temperatures of gallium clusters in the size range of 30-55 atoms [G. A. Breaux et al., J. Am. Chem. Soc. 126, 8628 (2004)]. In the present work, we have carried out an extensive density functional investigation on ten selected clusters in the above mentioned size range. In particular, we have analyzed the ground state geometry and the nature of bonding in these clusters using electron localization function. We demonstrate that the existence or otherwise of a large island of atoms bonded with similar strength (i.e., the local order) in the ground state geometry is responsible for the variation in the shape of the heat capacity curve. We attribute the observed higher melting temperatures of some of the clusters (viz., Ga45-Ga48) to the presence of a distinct core and strong covalent bonds between the core and surface atoms. The present work clearly demonstrates that it is possible to understand the general trends observed in the heat capacity curves across the entire series on the basis of the analysis of their ground state.

Published

2007