| Monitoring of the central blood pressure waveform via a conformal ultrasonic device C Wang, X Li, H Hu(co-first), L Zhang, Z Huang, M Lin, Z Zhang, Z Yin, ... Nature Biomedical Engineering 2 (9), 687-695, 2018 | 739 | 2018 |
| Strain engineering and epitaxial stabilization of halide perovskites Y Chen, Y Lei, Y Li, Y Yu, J Cai, MH Chiu, R Rao, Y Gu, C Wang, W Choi, ... Nature 577 (7789), 209-215, 2020 | 569 | 2020 |
| Three-dimensional integrated stretchable electronics Z Huang, Y Hao, Y Li, H Hu, C Wang, A Nomoto, T Pan, Y Gu, Y Chen, ... Nature Electronics 1 (8), 473-480, 2018 | 490 | 2018 |
| A fabrication process for flexible single-crystal perovskite devices Y Lei, Y Chen, R Zhang, Y Li, Q Yan, S Lee, Y Yu, H Tsai, W Choi, ... Nature 583 (7818), 790-795, 2020 | 378 | 2020 |
| A wearable cardiac ultrasound imager H Hu, H Huang, M Li, X Gao, L Yin, R Qi, RS Wu, X Chen, Y Ma, K Shi, ... Nature 613 (7945), 667-675, 2023 | 324 | 2023 |
| Stretchable ultrasonic transducer arrays for three-dimensional imaging on complex surfaces H Hu, X Zhu, C Wang, L Zhang, X Li, S Lee, Z Huang, R Chen, Z Chen, ... Science Advances 4 (3), eaar3979, 2018 | 313 | 2018 |
| Soft wearable devices for deep-tissue sensing M Lin, H Hu(co-first), S Zhou, S Xu Nature Reviews Materials 7 (11), 850-869, 2022 | 206 | 2022 |
| A stretchable epidermal sweat sensing platform with an integrated printed battery and electrochromic display L Yin, M Cao, KN Kim, M Lin, JM Moon, JR Sempionatto, J Yu, R Liu, ... Nature Electronics 5 (10), 694-705, 2022 | 198 | 2022 |
| Continuous monitoring of deep-tissue haemodynamics with stretchable ultrasonic phased arrays C Wang, B Qi, M Lin, Z Zhang, M Makihata, B Liu, S Zhou, Y Huang, H Hu, ... Nature Biomedical Engineering 5 (7), 749-758, 2021 | 184 | 2021 |
| Stretchable nanolayered thermoelectric energy harvester on complex and dynamic surfaces Y Yang, H Hu(co-first), Z Chen, Z Wang, L Jiang, G Lu, X Li, R Chen, J Jin, ... Nano Letters 20 (6), 4445-4453, 2020 | 153 | 2020 |
| A fully integrated wearable ultrasound system to monitor deep tissues in moving subjects M Lin, Z Zhang, X Gao, Y Bian, RS Wu, G Park, Z Lou, Z Zhang, X Xu, ... Nature Biotechnology 42 (3), 448-457, 2024 | 130 | 2024 |
| Perovskite superlattices with efficient carrier dynamics Y Lei, Y Li, C Lu, Q Yan, Y Wu, F Babbe, H Gong, S Zhang, J Zhou, ... Nature 608 (7922), 317-323, 2022 | 111 | 2022 |
| Controlled homoepitaxial growth of hybrid perovskites Y Lei, Y Chen, Y Gu, C Wang, Z Huang, H Qian, J Nie, G Hollett, W Choi, ... Advanced Materials 30 (20), 1705992, 2018 | 96 | 2018 |
| Stretchable ultrasonic arrays for the three-dimensional mapping of the modulus of deep tissue H Hu, Y Ma, X Gao, D Song, M Li, H Huang, X Qian, R Wu, K Shi, H Ding, ... Nature Biomedical Engineering 7 (10), 1321-1334, 2023 | 67 | 2023 |
| A photoacoustic patch for three-dimensional imaging of hemoglobin and core temperature X Gao, X Chen, H Hu(co-first), X Wang, W Yue, J Mu, Z Lou, R Zhang, ... Nature Communications 13 (1), 7757, 2022 | 58 | 2022 |
| Three-dimensional transistor arrays for intra-and inter-cellular recording Y Gu, C Wang, N Kim, J Zhang, TM Wang, J Stowe, R Nasiri, J Li, ... Nature Nanotechnology 17 (3), 292-300, 2022 | 50 | 2022 |
| Transcranial volumetric imaging using a conformal ultrasound patch S Zhou, X Gao, G Park, X Yang, B Qi, M Lin, H Huang, Y Bian, H Hu, ... Nature 629 (8013), 810-818, 2024 | 16 | 2024 |
| Fabric-substrated capacitive biopotential sensors enhanced by dielectric nanoparticles X Chen, X Gao, A Nomoto, K Shi, M Lin, H Hu, Y Gu, Y Zhu, Z Wu, X Chen, ... Nano Research 14, 3248-3252, 2021 | 16 | 2021 |
| Soft devices empowered by mechanoluminescent materials C Wang, H Hu, D Peng, L Dong, D Zhu | 11 | 2023 |
| Mechanoluminescence-powered bite-controlled human-machine interface C Wang, H Hu, D Zhu, C Pan Science Bulletin 68 (6), 559-561, 2023 | 7 | 2023 |