Articles with public access mandates - William T. Reynolds JrLearn more
Available somewhere: 15
Ultra-low resonant piezoelectric MEMS energy harvester with high power density
HC Song, P Kumar, D Maurya, MG Kang, WT Reynolds, DY Jeong, ...
Journal of Microelectromechanical Systems 26 (6), 1226-1234, 2017
Mandates: US National Science Foundation, US Department of Energy, US Department of …
Broadband dual phase energy harvester: Vibration and magnetic field
HC Song, P Kumar, R Sriramdas, H Lee, N Sharpes, MG Kang, D Maurya, ...
Applied Energy 225, 1132-1142, 2018
Mandates: US National Science Foundation, US Department of Defense
A method for predicting non-equilibrium thermal expansion using steepest-entropy-ascent quantum thermodynamics
R Yamada, MR von Spakovsky, WT Reynolds
Journal of Physics: Condensed Matter 30 (32), 325901, 2018
Mandates: US National Science Foundation
Predicting continuous and discontinuous phase decompositions using steepest-entropy-ascent quantum thermodynamics
R Yamada, MR von Spakovsky, WT Reynolds Jr
Physical Review E 99 (5), 052121, 2019
Mandates: US National Science Foundation
Low-temperature atomistic spin relaxation and non-equilibrium intensive properties using steepest-entropy-ascent quantum-inspired thermodynamics modeling
R Yamada, MR von Spakovsky, WT Reynolds
Journal of Physics: Condensed Matter 31 (50), 505901, 2019
Mandates: US National Science Foundation
Enhanced Softwood Cellulose Accessibility by H3PO4 Pretreatment: High Sugar Yield without Compromising Lignin Integrity
A Hossain, MS Rahaman, D Lee, TK Phung, CG Canlas, BA Simmons, ...
Industrial & Engineering Chemistry Research 59 (2), 1010-1024, 2019
Mandates: US National Science Foundation, US Department of Energy
Methodology of an application of the steepest-entropy-ascent quantum thermodynamic framework to physical phenomena in materials science
R Yamada, MR von Spakovsky, WT Reynolds Jr
Computational Materials Science 166, 251-264, 2019
Mandates: US National Science Foundation
Kinetic pathways of ordering and phase separation using classical solid state models within the steepest-entropy-ascent quantum thermodynamic framework
R Yamada, MR von Spakovsky, WT Reynolds Jr
Acta Materialia 182, 87-99, 2020
Mandates: US National Science Foundation
The influence of processing conditions on the 3-D interconnected structure of nanosilver paste
JA Stuckner, GQ Lu, M Mitsuhara, WT Reynolds, M Murayama
IEEE Transactions on Electron Devices 64 (2), 494-499, 2017
Mandates: US National Science Foundation
Predicting non-equilibrium folding behavior of polymer chains using the steepest-entropy-ascent quantum thermodynamic framework
J McDonald, MR von Spakovsky, WT Reynolds
The Journal of Chemical Physics 158 (10), 2023
Mandates: US Department of Education
Entropy-driven microstructure evolution predicted with the steepest-entropy-ascent quantum thermodynamic framework
J McDonald, MR von Spakovsky, WT Reynolds Jr
Acta Materialia 237, 118163, 2022
Mandates: US Department of Education
Interface Controlled Growth of Single-Crystalline PbTiO3 Nanostructured Arrays
HC Song, D Maurya, M Sanghadasa, WT Reynolds Jr, S Priya
The Journal of Physical Chemistry C 121 (48), 27191-27198, 2017
Mandates: US National Science Foundation, US Department of Energy
Assessing the influence of processing parameters and external loading on the nanoporous structure and morphology of nanoporous gold toward catalytic applications
J Stuckner, K Frei, SG Corcoran, WT Reynolds Jr, M Murayama
Journal of Physics and Chemistry of Solids 136, 109139, 2020
Mandates: US National Science Foundation, US Department of Energy
Predicting Polymer Brush Behavior in Solvents using the Steepest-Entropy-Ascent Quantum Thermodynamic Framework
J McDonald, MR von Spakovsky, WT Reynolds Jr
The Journal of Physical Chemistry B 127 (48), 10370-10391, 2023
Mandates: US Department of Education
Surface Symmetry Effect on Self-Assembly of Three-Dimensional Single Crystal Piezoelectric Nanostructures
HC Song, MG Kang, D Maurya, M Sanghadasa, RJ Bodnar, ...
Chemistry of Materials 30 (7), 2183-2187, 2018
Mandates: US Department of Energy, US Department of Defense
Publication and funding information is determined automatically by a computer program