Publications

2022
C. K. Abrahamsson, S. Ge, J. Bell, R. Blackledge, and G. M. Whitesides. 2022. “Chapter 4: Density Determination and Separation via Magnetic Levitation.” In Leading Edge Techniques in Forensic Trace Evidence Analysis: More New Trace Analysis Methods, 1st ed., Pp. 103-147. John Wiley & Sons, Inc.
1348
C. K. Abrahamsson, S. Ge, J. Bell, R. Blackledge, and G. M. Whitesides. 2022. “Chapter 4: Density Determination and Separation via Magnetic Levitation.” In Leading Edge Techniques in Forensic Trace Evidence Analysis: More New Trace Analysis Methods, 1st ed., Pp. 103-147. John Wiley & Sons, Inc.
1348
C. K. Abrahamsson, S. Ge, J. Bell, R. Blackledge, and G. M. Whitesides. 2022. “Chapter 4: Density Determination and Separation via Magnetic Levitation.” In Leading Edge Techniques in Forensic Trace Evidence Analysis: More New Trace Analysis Methods, 1st ed., Pp. 103-147. John Wiley & Sons, Inc.
1348
J. Park, M.S. Kodaimati, L. Belding, S.E. Root, G.C. Schatz, and G. M. Whitesides. 2022. “Controlled Hysteresis of Conductance in Molecular Tunneling Junctions.” ACS Nano, 16, Pp. 4206-4216. PDF Supplemental
1343
J. Park, M.S. Kodaimati, L. Belding, S.E. Root, G.C. Schatz, and G. M. Whitesides. 2022. “Controlled Hysteresis of Conductance in Molecular Tunneling Junctions.” ACS Nano, 16, Pp. 4206-4216. PDF Supplemental
1343
J. Park, M.S. Kodaimati, L. Belding, S.E. Root, G.C. Schatz, and G. M. Whitesides. 2022. “Controlled Hysteresis of Conductance in Molecular Tunneling Junctions.” ACS Nano, 16, Pp. 4206-4216. PDF Supplemental
1343
J. Park, M.S. Kodaimati, L. Belding, S.E. Root, G.C. Schatz, and G. M. Whitesides. 2022. “Controlled Hysteresis of Conductance in Molecular Tunneling Junctions.” ACS Nano, 16, Pp. 4206-4216. PDF Supplemental
1343
J. Park, M.S. Kodaimati, L. Belding, S.E. Root, G.C. Schatz, and G. M. Whitesides. 2022. “Controlled Hysteresis of Conductance in Molecular Tunneling Junctions.” ACS Nano, 16, Pp. 4206-4216. PDF Supplemental
1343
J. Park, M.S. Kodaimati, L. Belding, S.E. Root, G.C. Schatz, and G. M. Whitesides. 2022. “Controlled Hysteresis of Conductance in Molecular Tunneling Junctions.” ACS Nano, 16, Pp. 4206-4216. PDF Supplemental
1343
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
S.E. Root, V. Sanchez, J.A. Tracz, D.J. Preston, Y.S. Zvi, K. Wang, C. J. Walsh, and G. M. Whitesides. 2022. “An Expanding Foam-Fabric Orthopaedic Cast.” Advanced Materials Tech., Pp. 1-12. PDF
1344
R. Gao, M.S. Kodaimati, K.M. Handy, S.E. Root, and G. M. Whitesides. 2022. “Generating Oscillatory Behavior by Applyng a Magnetic Field During Electrocatalytic Oxidation of Glycerol.” J. Phys. Chem. C, 126, Pp. 18159-18169. PDF
1349
R. Gao, M.S. Kodaimati, K.M. Handy, S.E. Root, and G. M. Whitesides. 2022. “Generating Oscillatory Behavior by Applyng a Magnetic Field During Electrocatalytic Oxidation of Glycerol.” J. Phys. Chem. C, 126, Pp. 18159-18169. PDF
1349
R. Gao, M.S. Kodaimati, K.M. Handy, S.E. Root, and G. M. Whitesides. 2022. “Generating Oscillatory Behavior by Applyng a Magnetic Field During Electrocatalytic Oxidation of Glycerol.” J. Phys. Chem. C, 126, Pp. 18159-18169. PDF
1349

Pages