Daniel Schwen
Daniel Schwen
Idaho National Laboratory
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Manganese-doped ZnO nanobelts for spintronics
C Ronning, PX Gao, Y Ding, ZL Wang, D Schwen
Applied physics letters 84, 783, 2004
Catalyst− nanostructure interaction in the growth of 1-D ZnO nanostructures
C Borchers, S Müller, D Stichtenoth, D Schwen, C Ronning
The Journal of Physical Chemistry B 110 (4), 1656-1660, 2006
Shear induced chemical mixing in heterogeneous systems
Y Ashkenazy, NQ Vo, D Schwen, RS Averback, P Bellon
Acta Materialia 60 (3), 984-993, 2012
Ion beam synthesis of boron carbide thin films
C Ronning, D Schwen, S Eyhusen, U Vetter, H Hofsäss
Surface and Coatings Technology 158, 382-387, 2002
Alignment of semiconductor nanowires using ion beams
C Borschel, R Niepelt, S Geburt, C Gutsche, I Regolin, W Prost, ...
Small 5 (22), 2576-2580, 2009
BISON: A flexible code for advanced simulation of the performance of multiple nuclear fuel forms
RL Williamson, JD Hales, SR Novascone, G Pastore, KA Gamble, ...
Nuclear Technology 207 (7), 954-980, 2021
Microstructural stability of nanostructured Cu alloys during high-temperature irradiation
NQ Vo, SW Chee, D Schwen, X Zhang, P Bellon, RS Averback
Scripta materialia 63 (9), 929-932, 2010
Rapid multiphase-field model development using a modular free energy based approach with automatic differentiation in MOOSE/MARMOT
D Schwen, LK Aagesen, JW Peterson, MR Tonks
Computational Materials Science 132, 36-45, 2017
Molecular dynamics simulation of intragranular Xe bubble re-solution in UO2
D Schwen, M Huang, P Bellon, RS Averback
Journal of Nuclear Materials 392 (1), 35-39, 2009
A study of the evolution of microstructure and consolidation kinetics during sintering using a phase field modeling based approach
S Biswas, D Schwen, J Singh, V Tomar
Extreme Mechanics Letters 7, 78-89, 2016
Formation path of δ hydrides in zirconium by multiphase field modeling
J Bair, MA Zaeem, D Schwen
Acta Materialia 123, 235-244, 2017
Grand-potential-based phase-field model for multiple phases, grains, and chemical components
LK Aagesen, Y Gao, D Schwen, K Ahmed
Physical Review E 98 (2), 023309, 2018
Atomistic simulations of swift ion tracks in diamond and graphite
D Schwen, EM Bringa
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2007
Molecular dynamic simulation of fission fragment induced thermal spikes in UO2: Sputtering and bubble re-solution
M Huang, D Schwen, RS Averback
Journal of Nuclear Materials 399 (2-3), 175-180, 2010
Forced chemical mixing of immiscible Ag-Cu heterointerfaces using high-pressure torsion
M Pouryazdan, D Schwen, D Wang, T Scherer, H Hahn, RS Averback, ...
Physical Review B 86 (14), 144302, 2012
Atomic mixing in metals under shear deformation
NQ Vo, J Zhou, Y Ashkenazy, D Schwen, RS Averback, P Bellon
Jom 65, 382-389, 2013
Implementation of a phase field model for simulating evolution of two powder particles representing microstructural changes during sintering
S Biswas, D Schwen, V Tomar
Journal of materials science 53, 5799-5825, 2018
Catalyst–nanostructure interaction and growth of ZnS nanobelts
C Borchers, D Stichtenoth, S Müller, D Schwen, C Ronning
Nanotechnology 17 (4), 1067, 2006
Quantifying elastic energy effects on interfacial energy in the Kim-Kim-Suzuki phase-field model with different interpolation schemes
LK Aagesen, D Schwen, K Ahmed, MR Tonks
Computational Materials Science 140, 10-21, 2017
Formation and self-organization of void superlattices under irradiation: A phase field study
Y Gao, Y Zhang, D Schwen, C Jiang, C Sun, J Gan
Materialia 1, 78-88, 2018
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