He, Y, CD Spataru, F Léonard, RE Jones, ME Foster, M Allendorf, AA Talin. (2017). Two-Dimensional Metal-Organic Frameworks with High Thermoelectric Efficiency Through Metal Ion Selection. Physical Chemistry Chemical Physics, 19 (29), 19461-19467.
Erickson, KJ, F Léonard, V Stavila, ME Foster, CD Spataru, RE Jones, BM Foley, PE Hopkins, MD Allendorf, AA Talin. (2015). Thin Film Thermoelectric Metal-Organic Framework with High Seebeck Coefficient and Low Thermal Conductivity. Advanced Materials, accepted.
Jones, RE, and JA Zimmerman. The construction and application of an atomistic J-integral via Hardy estimates of continuum fields. J. Mech. Phys. Solids on-line (2010).
Jones, RE, JA Templeton, GJ Wagner, D Olmsted, and NA Modine. Elec-tron transport enhanced molecular dynamics for metals and semi-metals. Int. J. Num. Meth. Engin. on-line (2010).
Mandadapu, KK, RE Jones, and P Papadopoulos. A homogeneous nonequilibrium molecular dynamics method for calculating the heat transport coefficient of mixtures and alloys. The Journal of Chemical Physics 133, 034122 (2010).
Zhou, XW, RE Jones, and S Aubry. Molecular dynamics prediction of thermal conductivity of GaN films and wires at realistic length scales. Phys. Rev. B 81, 155321 (2010).
Jones, RE and CJ Kimmer. Efficient non-reflecting boundary condition constructed via optimization of damped layers. Phys. Rev. B 81, 094301 (2010).
Zimmerman, JA, RE Jones, and JA Templeton. A material frame approach for evaluating continuum variables in atomistic simulations. Journal of Computational Physics 229, 2364-2389 (2010).
Zhou, XW, RE Jones, and S Aubry. Analytical law for size effects on thermal conductivity of nanostructures. Phys. Rev. B 81, 073304 (2010).
Westover, T, R Jones, JY Huang, G Wang, E Lai, and AA Talin. Photoluminescence, Thermal Transport, and Breakdown in Joule-Heated GaN Nanowires. Nano Letters 9, 257-263 (2009).
Mandadapu, KK, RE Jones, and P Papadopoulos. Generalization of the homoge-neous nonequilibrium molecular dynamics method for calculating thermal conductivity to multibody potentials. Physical Review E 80 (2009).
Zhou, XW, NR Moody, RE Jones, JA Zimmerman, and ED Reedy. Molecular-dynamics-based cohesive zone law for brittle interfacial fracture under mixed loading conditions: Effects of elastic constant mismatch. Acta Materialia 57, 4671-4686 (2009).
Mandadapu, KK, RE Jones, and P Papadopoulos. A homogeneous nonequilibrium molecular dynamics method for calculating thermal conductivity with a three-body potential. The Journal of Chemical Physics 130 (2009).
Zhou, XW, S Aubry, RE Jones, A Greenstein, and PK Schelling. Towards more accurate molecular dynamics calculation of thermal conductivity: Case study of GaN bulk crystals. Physical Review B 79 (2009).
Zimmerman, J, RE Jones, J Templeton. (in review). A material frame approach for evaluating continuum variables in atomistic simulations. Journal of Mechanics and Physics of Solids.
Boyce, BL, MJ Grazier, RE Jones, TD Nguyen. (2008). Full-field deformation of bovine cornea under constrained inflation conditions. Biomaterials 29:3896.
Nguyen, TD, BL Boyce, RE Jones. (2008). A nonlinear viscoelastic model for the tensile behavior of bovine cornea. ASME Journal of Biomechanical Engineering 130:041020.
Wagner, GJ, RE Jones, JA Templeton, ML Parks. (2008). An atomistic-to-continuum coupling method for heat transfer in solids. Special Issue of Computer Methods and Applied Mechanics 197:3351.
Westover, T, RE Jones, JY Huang, G Wang, E Lai, AA Talin. (2008). Photoluminescence, thermal transport, and breakdown in joule-heated GaN nanowires. Nano Letters 9:257.
Boyce, BL, RE Jones, TD Nguyen, JM Grazier. (2007). Nonlinear viscoelastic tensile behavior of bovine cornea. Journal of Biomechanics 40:2367.
Jones, RE. (2007). A Greenwood-Williamson model of small-scale friction. Transactions of the ASME Journal of Applied Mechanics 74:31.
Kimmer, CJ, RE Jones. (2007). Continuum constitutive models from analytic free energies. Journal of Physics: Condensed Matter 19:326207.
Nguyen, TD, RE Jones, BL Boyce. (2007). Modeling the anisotropic finite-deformation viscoelastic behavior of soft fiber-reinforced composite materials. International Journal of Solids and Structures 44: 8366.
Solberg, JM, RE Jones, P Papadopoulos. (2007). A family of simple two-pass dual formulations for the finite-element solution of contact problems. Computer Methods in Applied Mechanics and Engineering 196:782.
Jones, RE, P Papadopoulos. (2006). A geometric interpretation of frictional contact mechanics. Zeitschrift für Angewandte Mathematik und Physik 57:1025.
Jones, RE, P Papadopoulos. (2006). Simulating anisotropic frictional response using smoothly interpolated traction fields. Computer Methods in Applied Mechanics and Engineering 195:588.
Jones, RE, DA Zeigler. (2005). A method for determining the asperity distribution of contacting rough surfaces. Transactions of the ASME Journal of Tribology 127:24.
Jones, RE. (2004). Models for contact loading and unloading of a rough surface. International Journal of Engineering Science 42:1931.
Zimmerman, JA, EB Webb, JJ Hoyt, RE Jones, PA Klein, DJ Bammann. (2004). Calculation of stress in atomistic simulation. Modeling and Simulation in Materials Science and Engineering 12:S319.
Jones, RE, P Papadopoulos. (2001). A novel three-dimensional contact finite element based on smooth pressure interpolations. International Journal for Numerical Methods in Engineering 51:791.
Jones, RE, P Papadopoulos. (2001). On the application of a work postulate to frictional contact. Archives of Mechanics 53:275.
Jones, RE, P Papadopoulos. (2000). A yield-limited Lagrange multiplier method for frictional contact. International Journal for Numerical Methods in Engineering 48:1127.
Papadopoulos, P, RE Jones, JM Solberg. (1995). A novel finite-element formulation for frictionless contact problems. International Journal for Numerical Methods in Engineering 38:2603.
Papadopoulos, P, RE Jones. (1994). On a class of finite elements for frictionless contact problems. In Recent Developments in Finite Element Analysis, T Hughes, E Onate, O Zienkiewicz, Eds. CIMNE: Barcelona.