A wearable and highly sensitive pressure sensor with ultrathin gold nanowires S Gong, W Schwalb, Y Wang, Y Chen, Y Tang, J Si, B Shirinzadeh, ... Nature communications 5 (1), 3132, 2014 | 2145 | 2014 |
Building plasmonic nanostructures with DNA SJ Tan, MJ Campolongo, D Luo, W Cheng Nature nanotechnology 6 (5), 268-276, 2011 | 893 | 2011 |
Highly stretchy black gold E‐skin nanopatches as highly sensitive wearable biomedical sensors S Gong, DTH Lai, B Su, KJ Si, Z Ma, LW Yap, P Guo, W Cheng Advanced Electronic Materials, 1400063, 2015 | 486 | 2015 |
Free-standing nanoparticle superlattice sheets controlled by DNA W Cheng, MJ Campolongo, JJ Cha, SJ Tan, CC Umbach, DA Muller, ... Nature materials 8 (6), 519-525, 2009 | 447 | 2009 |
Mimosa-inspired design of a flexible pressure sensor with touch sensitivity B Su, S Gong, Z Ma, LW Yap, W Cheng Small 11 (16), 1886-1891, 2015 | 370 | 2015 |
Technology roadmap for flexible sensors Y Luo, MR Abidian, JH Ahn, D Akinwande, AM Andrews, M Antonietti, ... ACS nano 17 (6), 5211-5295, 2023 | 341 | 2023 |
One‐dimensional nanomaterials for soft electronics S Gong, W Cheng Advanced Electronic Materials 3 (3), 1600314, 2017 | 336 | 2017 |
Disruptive, soft, wearable sensors Y Ling, T An, LW Yap, B Zhu, S Gong, W Cheng Advanced Materials 32 (18), 1904664, 2020 | 325 | 2020 |
Tattoolike polyaniline microparticle-doped gold nanowire patches as highly durable wearable sensors S Gong, DTH Lai, Y Wang, LW Yap, KJ Si, Q Shi, NN Jason, T Sridhar, ... ACS applied materials & interfaces 7 (35), 19700-19708, 2015 | 314 | 2015 |
Percolating network of ultrathin gold nanowires and silver nanowires toward “invisible” wearable sensors for detecting emotional expression and apexcardiogram MD Ho, Y Ling, LW Yap, Y Wang, D Dong, Y Zhao, W Cheng Advanced Functional Materials 27 (25), 1700845, 2017 | 291 | 2017 |
Manufacturable conducting rubber ambers and stretchable conductors from copper nanowire aerogel monoliths Y Tang, S Gong, Y Chen, LW Yap, W Cheng ACS nano 8 (6), 5707-5714, 2014 | 268 | 2014 |
Highly stretchable and strain-insensitive fiber-based wearable electrochemical biosensor to monitor glucose in the sweat Y Zhao, Q Zhai, D Dong, T An, S Gong, Q Shi, W Cheng Analytical chemistry 91 (10), 6569-6576, 2019 | 242 | 2019 |
Synthesis and self-assembly of cetyltrimethylammonium bromide-capped gold nanoparticles W Cheng, S Dong, E Wang Langmuir 19 (22), 9434-9439, 2003 | 224 | 2003 |
A facile ion-doping strategy to regulate tumor microenvironments for enhanced multimodal tumor theranostics J Bai, X Jia, W Zhen, W Cheng, X Jiang Journal of the American Chemical Society 140 (1), 106-109, 2018 | 223 | 2018 |
Nanopatterning self-assembled nanoparticle superlattices by moulding microdroplets W Cheng, N Park, MT Walter, MR Hartman, D Luo Nature Nanotechnology 3 (11), 682-690, 2008 | 218 | 2008 |
Power generation for wearable systems M Gao, P Wang, L Jiang, B Wang, Y Yao, S Liu, D Chu, W Cheng, Y Lu Energy & Environmental Science 14 (4), 2114-2157, 2021 | 212 | 2021 |
1D copper nanostructures: progress, challenges and opportunities S Bhanushali, P Ghosh, A Ganesh, W Cheng Small 11 (11), 1232-1252, 2015 | 207 | 2015 |
Toward soft skin‐like wearable and implantable energy devices S Gong, W Cheng Advanced Energy Materials 7 (23), 1700648, 2017 | 205 | 2017 |
Nanoparticle superlattices: the roles of soft ligands KJ Si, Y Chen, Q Shi, W Cheng Advanced Science 5 (1), 1700179, 2018 | 203 | 2018 |
Recent progress in stretchable supercapacitors T An, W Cheng Journal of Materials Chemistry A 6 (32), 15478-15494, 2018 | 198 | 2018 |