Publications

2022
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
L. Whiteside, S.V Kendre, T.Y. Fan, J.A. Tracz, G.T. Teran, T.C. Underwood, M.E. Sayed, H.J. Jiang, A. A. Stokes, D.J. Preston, G. M. Whitesides, and M.P. Nemitz. 2022. “The Soft Compiler: A Web-Based Tool for the Design of Modulr Pneumatic Circuits for Soft Robots.” IEEE Robotics and Automation Letters, 7, 3, Pp. 6060-6066. PDF
1345
2021
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
J. Park, L. Belding, Y. Li, M.P.S. Mousavi, S.E. Root, H. J. Yoon, and G. M. Whitesides. 2021. “Rectification in Molecular Tunneling Junctions based on Alkanethiolates with Bipyridine-Metal Complexes.” JACS, 143, Pp. 2156-2163. PDF Supplemental
1331
S.E. Root, D.J. Preston, G.O Feifke, H. Wallace, R.M. Alcorn, M.P. Nemitz, J.A. Tracz, and G. M. Whitesides. 2021. “Bio-Inspired Design of Soft Mechanisms Using a Toroidal Hydrostat.” Cell Reports Physical Science, 2, 9, Pp. 100572. PDF Supplemental
1335

Pages