On the Bending Properties of Porcine Mitral, Tricuspid, Aortic, and Pulmonary Valve Leaflets

Brazile, B., B. Wang, G. Wang, R. Bertucci, R. Prabhu, S.S. Patnaik, J.R. Butler, A.K. Claude, E. Brinkman-Ferguson, L.N. Williams, and J. Liao. On the Bending Properties of Porcine Mitral, Tricuspid, Aortic, and Pulmonary Valve Leaflets. Journal of Long-Term Effects of Medical Implants 25 2015:1-14.

Direct synthesis of carbon-based microtubes by hydrothermal carbonization of microorganism cells

Li, F., Yang, J., Liao, Jiali, Li, S., Liao, Jun, Prabhu, R., Williams, L.N., Tang, Y., Tang, J., Liu, N. Direct synthesis of carbon-based microtubes by hydrothermal carbonization of microorganism cells. Chemical Engineering Journal. 276, 2015:322-330

Anisotropic Compressive Properties of Passive Porcine Muscle Tissue

Pietsch, R., Wheatley, B.B., Donahue, T.L.H., Gilbrech, R., Prabhu, R., Liao, J., Williams, L.N. Anisotropic Compressive Properties of Passive Porcine Muscle Tissue, Journal of Biomechanical Engineering. 136 (11), 2014: DOI: 10.1115/1.4028088

Myocardial Scaffold-based Cardiac Tissue Engineering: Application of Coordinated Mechanical and Electrical Stimulations

Bo Wang, Guangjun Wang, Filip To, J. Ryan Butler, Andrew Claude, Ronald M. McLaughlin, L. N. Williams, Amy L. de Jongh Curry, and Jun Liao. Myocardial Scaffold-based Cardiac Tissue Engineering: Application of Coordinated Mechanical and Electrical Stimulations. Langmuir 29, 2013: 11109-11117

Stress State and Strain Rate Dependence of the Human Placenta

Weed B.C., Borazjani, A., Patnaik, S.S., Prabhu, R., Horstemeyer, M.F., Ryan, P.L., Franz, T., Williams, L. N., Liao, J. Stress State and Strain Rate Dependence of the Human Placenta, Annals of Biomedical Engineering. 40(10), 2012: 2255-65.

Structural and Biomechanical Characterizations of Porcine Myocardial Extracellular Matrix

Wang, B., Tedder, M.E., Perez, C.E., Wang, G., Curry, A.L., To, F., Elder, S. H., Williams, L. N., Simionescu, D. T., Liao, J. Structural and Biomechanical Characterizations of Porcine Myocardial Extracellular Matrix, Journal of Materials Science: Materials in Medicine. 23(8), 2012: 1835-1847

Development of a Lower Extremity Model at Blast Conditions HFM-207

Bertucci, R., Gilbrech, R., Mao, M., Prabhu, R., Horstemeyer, M.F., Liao, J., Williams, L.N. Development of a Lower Extremity Model at Blast Conditions HFM-207, NATO Symposium on Blast Injury. No. 17, 2011.

The Intrinsic Fatigue Mechanism of the Porcine Aortic Valve Extracellular Matrix

Liao, J., Joyce, E.M., Merryman, D.W., Jones, H.L., Tahai, M., Horstemeyer, M.F., Williams, L.N., Hopkins, R.A., Sacks, M.S. The Intrinsic Fatigue Mechanism of the Porcine Aortic Valve Extracellular Matrix, Cardiovascular Engineering and Technology. 3(1), 2012: 62-72

A Mechanistic Study for Strain Rate Sensitivity of Rabbit Patellar Tendon

Clemmer, J., Liao, J., Davis, D., Horstemeyer, M., Williams, L.N., A Mechanistic Study for Strain Rate Sensitivity of Rabbit Patellar Tendon, Journal of Biomechanics. 43, 2010: 2785-2791.

The Anisotropic Compressive Mechanical Properties of the Rabbit Patellar Tendon

Williams, L.N., Elder, S. H., Bouvard, J.L., Horstemeyer, M.F., The Anisotropic Compressive Mechanical Properties of the Rabbit Patellar Tendon, Biorheology. 45, 2008:577-586.