Rita V. Rodriguez CNS Division Of Computer and Network Systems
CSE Direct For Computer & Info Scie & Enginr
September 1, 2012
August 31, 2015 (Estimated)
Awarded Amount to Date:
Dinesh Katti Dinesh.Katti@Ndsu.Edu (Principal Investigator)
Wenfang Sun (Co-Principal Investigator) Samee Khan (Co-Principal Investigator) Anne Denton (Co-Principal Investigator) Martin Ossowski (Co-Principal Investigator)
North Dakota State University Fargo
Dept 4000 - PO Box 6050
MAJOR RESEARCH INSTRUMENTATION,
EXP PROG TO STIM COMP RES
Program Reference Code(s):
Program Element Code(s):
Proposal #: 12-29316
PI(s): Katti, Dinesh R; Denton, Anne M; Khan, Samee U; Ossowski, Martin M; Sun, Wenfang;
Institution: North Dakota State University Fargo
Title: MRI/Acq.: Data-Intensive Cyberinfrastructure for Research and Education (DICRE) at NDStU
This project from an EPSCoR state, acquiring a storage-heavy Beowulf cluster with an HDD storage appliance and a tape storage subsystem for archival purposes, enables a variety of research projects in experimental HPC and applications in bioinformatics, data-aware materials modeling, and others, all of which will both increase the institution?s resources for scientific computing and build a dataset to assist their HPC research projects. Within the state and beyond, the proposed instrument is expected to break barriers to research in the areas of computational materials science and chemistry, computational mechanics and biomechanics, data informatics, and data-aware scalable computational sciences where ?big-data? increasingly complicates traditional computational workflows and paradigms.
Due to a convincing educational and outreach plans, as well as expected scientific discoveries in the areas of science proposed, the proposal showcases strong broader impacts. The programs to enrich broader impact aspects will not only be felt locally, but will also help ensure that the nation maintains leadership and innovation within the addressed research domains.
PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH
Note: When clicking on a Digital Object Identifier (DOI) number, you will be taken to an external site maintained by the publisher. Some full text articles may not yet be available without a charge during the embargo (administrative interval).
Some links on this page may take you to non-federal websites. Their policies may differ from this site.
D.R. Katti, A. Sharma, S.M. Pradhan, K.S. Katti. "Carbon nanotube proximity influences rice DNA," J. Chemical Physics, v.455, 2015, p. 17.
S.M. Pradhan, K. S. Katti and D. R. Katti. "A Multiscale Model of Collagen Fibril In Bone: Elastic Response,," J. of Engineering Mechanics, v.140, 2014, p. 454.
C. Hellmich and D.R. Katti,. "Multiscale Mechanics of Biological, Bioinspired, and Biomedical Materials," Materials Research Society Bulletin, v.40, 2015, p. 309.
K. Hoang. "Understanding the electronic and ionic conduction and lithium over-stoichiometry in LiMn2O4 spinel," Journal of Materials Chemistry A, v.2, 2014, p. 18271.
D. R Katti, H. Upadhyay, K. S Katti. "Molecular Interactions of Kerogen Moities with Na- Montmorillonite: An experimental and modeling study," Fuel, v.130, 2014, p. 34.
C. Gu, D. R. Katti, K. S. Katti. "Dynamic nanomechanical behavior of healthy and OI human cortical bones," Bioinspired, Biomimetic and Nanobiomaterials, v.4, 2015, p. 15.
Hoang, K.. "Defect chemistry and delithiation mechanism of layered lithium manganese oxide cathode materials," Energy & Environmental Science (Under Preparation), 2014.
K. Hoang. "Defect physics, delithiation mechanism, and electronic and ionic conduction in layered lithium manganese oxide cathode materials," Physical Review Applied, v.3, 2015.
Hoang, K.. "Understanding the electronic and ionic conduction and lithium over-stoichiometry in LiMn2O4 spinel," Journal of Materials Chemistry A, 2014.
M. M. Yallapu, K. S. Katti, Dinesh R. Katti, Sanjay R. Mishra, S. Khan, M. Jaggi, and S. C. Chauhan. "The Roles of Cellular Nanomechanics in Cancer," Medicinal Research Reviews, v.35, 2015, p. 198.
K. Hoang, A. Janotti, and C. G. Van de Walle. "The role of native defects in the transport of charge and mass and the decomposition of Li4BN3H10," Physical Chemistry Chemical Physics, v.16, 2014.
M. Abdelrahman, D. R. Katti, A. Ghavibazoo, H. B. Upadhyay, K. S. Katti. "Effect of nanoclay-asphalt interactions on physical properties of asphalt," Journal of Materials in Civil Engineering, v.26, 2014.
A. Sharma, S. Payne, K. S. Katti, and D. R. Katti. "Evaluating Molecular Interactions in Polycaprolactone- Biomineralized Hydroxyapatite Nanocomposites using Steered Molecular Dynamics," JOM, v.67, 2015, p. 733.
Berg P, Roloff C, Beuing O, et al.. "The Computational Fluid Dynamics Rupture Challenge 2013?Phase II: Variability of Hemodynamic Simulations in Two Intracranial Aneurysms," ASME. J Biomech Eng., v.137, 2015.
A. H. Ambre, D. R. Katti, and K. S. Katti. "Biomineralized Hydroxyapatite Nanoclay Composite Scaffolds with Polycaprolactone for Stem Cell Based Bone Tissue Engineering," Journal of Biomedical Materials Research: Part A., 2014.
W. Sun, C. Pei, P. Cui, C. McCleese, S. Kilina and C. Burda. "Heteroleptic Cationic Iridium(III) Complexes Bearing Naphthalimidyl Substituents: Synthesis, Photophysics and Reverse Saturable Absorption," Dalton Trans, v.44, 2015, p. 2176.
D. R. Katti, A. Sharma, A. H. Ambre and K. S. Katti. "Molecular Interactions in Biomineralized Hydroxyapatite Between Amino Acid Modified Nanoclay: Insilico Design of Bone Biomaterials," Materials for biological applications, v.46, 2015, p. 207.
S. M. Pradhan, K. S. Katti, D. R. Katti. "Evolution of Molecular Interactions in the Interlayer of Na-Montmorillonite Swelling Clay with Increasing Hydration," International Journal of Geomechanics, 2014.
Z. Li, P. Cui*, C. Wang, S. Kilina, and W. Sun. "Nonlinear Absorbing Cationic Bipyridyl Iridium(III) Complexes Bearing Cyclometalating Ligands with Different Degrees of ?-Conjugation: Synthesis, Photophysics, and Reverse Saturable Absorption.," J. Phys. Chem. C, v.18, 2014, p. 28764.
S. M. Pradhan, K. S. Katti, D. R. Katti. "Multiscale Modeling of Collagen Fibril in Bone at Various Crosslink Densities: An Insight into its Deformation Mechanisms," CMES (Computer Modeling in Engineering and Sciences) SI: "Computational Mechanobiology of Soft Matters and Cells?,, v.98, 2014, p. 181.