Shruba Gangopadhyay
Shruba Gangopadhyay
Applied Materials INC
Подтвержден адрес электронной почты в домене knights.ucf.edu
Reaching the magnetic anisotropy limit of a 3d metal atom
IG Rau, S Baumann, S Rusponi, F Donati, S Stepanow, L Gragnaniello, ...
Science 344 (6187), 988-992, 2014
Origin of perpendicular magnetic anisotropy and large orbital moment in Fe atoms on MgO
S Baumann, F Donati, S Stepanow, S Rusponi, W Paul, S Gangopadhyay, ...
Physical review letters 115 (23), 237202, 2015
Structure and properties of cerium oxides in bulk and nanoparticulate forms
S Gangopadhyay, DD Frolov, AE Masunov, S Seal
Journal of Alloys and compounds 584, 199-208, 2014
Electronic properties of Mn-decorated silicene on hexagonal boron nitride
TP Kaloni, S Gangopadhyay, N Singh, B Jones, U Schwingenschlögl
Physical Review B 88 (23), 235418, 2013
Quantum chemical study of the initial step of ozone addition to the double bond of ethylene
OB Gadzhiev, SK Ignatov, BE Krisyuk, AV Maiorov, S Gangopadhyay, ...
The Journal of Physical Chemistry A 116 (42), 10420-10434, 2012
Structural characterization combined with the first principles simulations of barium/strontium cobaltite/ferrite as promising material for solid oxide fuel cells cathodes and …
S Gangopadhayay, T Inerbaev, AE Masunov, D Altilio, N Orlovskaya
ACS Applied Materials & Interfaces 1 (7), 1512-1519, 2009
Spin-orbit coupling, strong correlation, and insulator-metal transitions: The J eff= 3 2 ferromagnetic Dirac-Mott insulator Ba 2 NaOsO 6
S Gangopadhyay, WE Pickett
Physical Review B 91 (4), 045133, 2015
Mechanism of Nitric Oxide Oxidation Reaction (2NO + O2 → 2NO2) Revisited
OB Gadzhiev, SK Ignatov, S Gangopadhyay, AE Masunov, AI Petrov
Journal of Chemical Theory and Computation 7 (7), 2021-2024, 2011
Interplay between spin-orbit coupling and strong correlation effects: Comparison of the three osmate double perovskites Ba 2 A OsO 6 (A= Na, Ca, Y)
S Gangopadhyay, WE Pickett
Physical Review B 93 (15), 155126, 2016
Understanding oxygen vacancy migration and clustering in barium strontiumcobalt iron oxide
S Gangopadhyay, AE Masunov, T Inerbaev, J Mesit, RK Guha, AK Sleiti, ...
Solid State Ionics 181 (23-24), 1067-1073, 2010
High Seebeck Coefficient and Unusually Low Thermal Conductivity Near Ambient Temperatures in Layered Compound Yb2–xEuxCdSb2
JA Cooley, P Promkhan, S Gangopadhyay, D Donadio, WE Pickett, ...
Chemistry of Materials 30 (2), 484-493, 2017
Weak antiferromagnetic coupling in molecular ring is predicted correctly by density functional theory plus Hubbard U
S Gangopadhyay, AE Masunov, E Poalelungi, MN Leuenberger
The Journal of chemical physics 132 (24), 244104, 2010
Wide gap Chern Mott insulating phases achieved by design
H Guo, S Gangopadhyay, O Köksal, R Pentcheva, WE Pickett
NPJ Quantum Materials 2 (1), 1-8, 2017
Variability sources and reliability of 3D—FeFETs
M Pešić, B Beltrando, A Padovani, S Gangopadhyay, M Kaliappan, ...
2021 IEEE International Reliability Physics Symposium (IRPS), 1-7, 2021
Magnetic Exchange in MnII[TCNE] (TCNE = Tetracyanoethylene) Molecule-Based Magnets with Two- and Three-Dimensional Magnetic Networks
CS Olson, S Gangopadhyay, K Hoang, F Alema, S Kilina, K Pokhodnya
The Journal of Physical Chemistry C 119 (44), 25036-25046, 2015
Predictions of the Spin Configuration in Mn12 Molecular Magnets Made Accurate with the Help of Hubbard U on the Ligand Atoms
S Gangopadhyay, AE Masunov, S Kilina
The Journal of Physical Chemistry C 118 (35), 20605-20612, 2014
Prediction of Exchange Coupling Constant for Mn12 Molecular Magnet Using Dft+U
S Gangopadhyay, AE Masunov, E Poalelungi, MN Leuenberger
International Conference on Computational Science, 151-159, 2009
Heisenberg coupling constant predicted for molecular magnets with pairwise spin-contamination correction
AE Masunov, S Gangopadhyay
Journal of Magnetism and Magnetic Materials 396, 222-227, 2015
Masunov, A. m. E.; Altilio, D.; Orlovskaya, N
S Gangopadhayay, T Inerbaev
ACS Appl. Mater. Interfaces 1, 1512-1519, 2009
Crested barrier device and synaptic element
Milan Pesic, Shruba Gangopadhyay, Muthukumar Kaliappan, Michael Haverty
US Patent App. 17/380,318, 2021
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