| Skin electronics from scalable fabrication of an intrinsically stretchable transistor array S Wang, J Xu, W Wang, GJN Wang, R Rastak, F Molina-Lopez, JW Chung, ... Nature 555 (7694), 83-88, 2018 | 1961 | 2018 |
| Highly stretchable polymer semiconductor films through the nanoconfinement effect J Xu, S Wang, GJN Wang, C Zhu, S Luo, L Jin, X Gu, S Chen, VR Feig, ... Science 355 (6320), 59-64, 2017 | 1125 | 2017 |
| Stretchable self-healing polymeric dielectrics cross-linked through metal–ligand coordination YL Rao, A Chortos, R Pfattner, F Lissel, YC Chiu, V Feig, J Xu, ... Journal of the American Chemical Society 138 (18), 6020-6027, 2016 | 562 | 2016 |
| Mechanically tunable conductive interpenetrating network hydrogels that mimic the elastic moduli of biological tissue VR Feig, H Tran, M Lee, Z Bao Nature communications 9 (1), 2740, 2018 | 518 | 2018 |
| Microengineering pressure sensor active layers for improved performance SRA Ruth, VR Feig, H Tran, Z Bao Advanced Functional Materials 30 (39), 2003491, 2020 | 410 | 2020 |
| Biodegradable polymeric materials in degradable electronic devices VR Feig, H Tran, Z Bao ACS central science 4 (3), 337-348, 2018 | 408 | 2018 |
| Rational design of capacitive pressure sensors based on pyramidal microstructures for specialized monitoring of biosignals SRA Ruth, L Beker, H Tran, VR Feig, N Matsuhisa, Z Bao Advanced functional materials 30 (29), 1903100, 2020 | 390 | 2020 |
| Multi-scale ordering in highly stretchable polymer semiconducting films J Xu, HC Wu, C Zhu, A Ehrlich, L Shaw, M Nikolka, S Wang, ... Nature materials 18 (6), 594-601, 2019 | 323 | 2019 |
| Inkjet-printed stretchable and low voltage synaptic transistor array F Molina-Lopez, TZ Gao, U Kraft, C Zhu, T Öhlund, R Pfattner, VR Feig, ... Nature communications 10 (1), 2676, 2019 | 251 | 2019 |
| An electrochemical gelation method for patterning conductive PEDOT: PSS hydrogels VR Feig, H Tran, M Lee, K Liu, Z Huang, L Beker, DG Mackanic, Z Bao Advanced Materials 31 (39), 1902869, 2019 | 183 | 2019 |
| Stretchable and fully degradable semiconductors for transient electronics H Tran, VR Feig, K Liu, HC Wu, R Chen, J Xu, K Deisseroth, Z Bao ACS central science 5 (11), 1884-1891, 2019 | 119 | 2019 |
| Advancing models of neural development with biomaterials JG Roth, MS Huang, TL Li, VR Feig, Y Jiang, B Cui, HT Greely, Z Bao, ... Nature Reviews Neuroscience 22 (10), 593-615, 2021 | 87 | 2021 |
| Flexible fringe effect capacitive sensors with simultaneous high‐performance contact and non‐contact sensing capabilities SRA Ruth, VR Feig, M Kim, Y Khan, JK Phong, Z Bao Small Structures 2 (2), 2000079, 2021 | 84 | 2021 |
| Strain-and strain-rate-invariant conductance in a stretchable and compressible 3D conducting polymer foam G Chen, R Rastak, Y Wang, H Yan, V Feig, Y Liu, Y Jiang, S Chen, F Lian, ... Matter 1 (1), 205-218, 2019 | 79 | 2019 |
| Polymer chemistries underpinning materials for skin-inspired electronics H Tran, VR Feig, K Liu, Y Zheng, Z Bao Macromolecules 52 (11), 3965-3974, 2019 | 76 | 2019 |
| Biodegradable and stretchable polymeric materials for transient electronic devices K Liu, H Tran, VR Feig, Z Bao MRS Bulletin 45 (2), 96-102, 2020 | 66 | 2020 |
| Conjugated polymer for implantable electronics toward clinical application Y Liu, VR Feig, Z Bao Advanced Healthcare Materials 10 (17), 2001916, 2021 | 64 | 2021 |
| Mucosa-interfacing electronics K Nan, VR Feig, B Ying, JG Howarth, Z Kang, Y Yang, G Traverso Nature Reviews Materials 7 (11), 908-925, 2022 | 57 | 2022 |
| Low-cost gastrointestinal manometry via silicone–liquid-metal pressure transducers resembling a quipu K Nan, S Babaee, WW Chan, JLP Kuosmanen, VR Feig, Y Luo, ... Nature Biomedical Engineering 6 (10), 1092-1104, 2022 | 46 | 2022 |
| Delivery of therapeutic carbon monoxide by gas-entrapping materials JD Byrne, D Gallo, H Boyce, SL Becker, KM Kezar, AT Cotoia, VR Feig, ... Science translational medicine 14 (651), eabl4135, 2022 | 44 | 2022 |