Publications

2022
J.A. Tracz, L. Wille, D. Pathiraja, S.V. Kendre, R. Pfisterer, E. Turett, Teran, G.T, C. K. Abrahamsson, S.E. Root, W-K. Lee, D.J. Preston, H.J. Jiang, G. M. Whitesides, and M.P. Nemitz. 2022. “Tube-Balloon Logic for the Exploration of Fluidic Control Elements.” IEEE Robotics and Automation Letters, 7, 2, Pp. 5483-5488. PDF
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S. Tatsumi, T. Omatsu, K. Maeda, M.P.S. Mousavi, G. M. Whitesides, and Y. Yoshida. 2022. “An all-solid-state thin-layer laminated cell for calibration-free coulometric determination of K+.” Electrochimicia Acta., 408, 139946, Pp. 1-9. PDF Supplemental
1339
S. Tatsumi, T. Omatsu, K. Maeda, M.P.S. Mousavi, G. M. Whitesides, and Y. Yoshida. 2022. “An all-solid-state thin-layer laminated cell for calibration-free coulometric determination of K+.” Electrochimicia Acta., 408, 139946, Pp. 1-9. PDF Supplemental
1339
S. Tatsumi, T. Omatsu, K. Maeda, M.P.S. Mousavi, G. M. Whitesides, and Y. Yoshida. 2022. “An all-solid-state thin-layer laminated cell for calibration-free coulometric determination of K+.” Electrochimicia Acta., 408, 139946, Pp. 1-9. PDF Supplemental
1339
S. Tatsumi, T. Omatsu, K. Maeda, M.P.S. Mousavi, G. M. Whitesides, and Y. Yoshida. 2022. “An all-solid-state thin-layer laminated cell for calibration-free coulometric determination of K+.” Electrochimicia Acta., 408, 139946, Pp. 1-9. PDF Supplemental
1339
S. Tatsumi, T. Omatsu, K. Maeda, M.P.S. Mousavi, G. M. Whitesides, and Y. Yoshida. 2022. “An all-solid-state thin-layer laminated cell for calibration-free coulometric determination of K+.” Electrochimicia Acta., 408, 139946, Pp. 1-9. PDF Supplemental
1339
S. Tatsumi, T. Omatsu, K. Maeda, M.P.S. Mousavi, G. M. Whitesides, and Y. Yoshida. 2022. “An all-solid-state thin-layer laminated cell for calibration-free coulometric determination of K+.” Electrochimicia Acta., 408, 139946, Pp. 1-9. PDF Supplemental
1339
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
W-K Lee, D.J. Preston, M.P. Nemitz, A. Nagarkar, A.K. MacKeith, B. Gorissen, N. Vasios, V. Sanchez, K. Bertoldi, L. Mahadevan, and G. M. Whitesides. 2022. “A buckling-sheet ring oscillator for electronics-free, multimodal locomotion.” Science Robotics, 7, 63, Pp. 1-12. PDF Supplemental
1340
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

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