| High temperature shockwave stabilized single atoms Y Yao, Z Huang, P Xie, L Wu, L Ma, T Li, Z Pang, M Jiao, Z Liang, J Gao, ... Nature nanotechnology 14 (9), 851-857, 2019 | 312 | 2019 |
| Wrinkle-free single-crystal graphene wafer grown on strain-engineered substrates B Deng, Z Pang, S Chen, X Li, C Meng, J Li, M Liu, J Wu, Y Qi, W Dang, ... ACS nano 11 (12), 12337-12345, 2017 | 204 | 2017 |
| All‐natural, degradable, rolled‐up straws based on cellulose micro‐and nano‐hybrid fibers X Wang, Z Pang, C Chen, Q Xia, Y Zhou, S Jing, R Wang, U Ray, W Gan, ... Advanced functional materials 30 (22), 1910417, 2020 | 199 | 2020 |
| Alignment of cellulose nanofibers: harnessing nanoscale properties to macroscale benefits K Li, CM Clarkson, L Wang, Y Liu, M Lamm, Z Pang, Y Zhou, J Qian, ... ACS nano 15 (3), 3646-3673, 2021 | 127 | 2021 |
| Strong, hydrostable, and degradable straws based on cellulose‐lignin reinforced composites X Wang, Q Xia, S Jing, C Li, Q Chen, B Chen, Z Pang, B Jiang, W Gan, ... Small 17 (18), 2008011, 2021 | 126 | 2021 |
| Highly elastic hydrated cellulosic materials with durable compressibility and tunable conductivity C Chen, J Song, J Cheng, Z Pang, W Gan, G Chen, Y Kuang, H Huang, ... ACS nano 14 (12), 16723-16734, 2020 | 115 | 2020 |
| Bottom-up design of three-dimensional carbon-honeycomb with superb specific strength and high thermal conductivity Z Pang, X Gu, Y Wei, R Yang, MS Dresselhaus Nano letters 17 (1), 179-185, 2017 | 108 | 2017 |
| Mechanics design in cellulose‐enabled high‐performance functional materials U Ray, S Zhu, Z Pang, T Li Advanced Materials 33 (28), 2002504, 2021 | 99 | 2021 |
| Fast growth of strain-free AlN on graphene-buffered sapphire Y Qi, Y Wang, Z Pang, Z Dou, T Wei, P Gao, S Zhang, X Xu, Z Chang, ... Journal of the American Chemical Society 140 (38), 11935-11941, 2018 | 86 | 2018 |
| Emerging engineered wood for building applications Y Ding, Z Pang, K Lan, Y Yao, G Panzarasa, L Xu, M Lo Ricco, ... Chemical Reviews 123 (5), 1843-1888, 2022 | 84 | 2022 |
| Direct observation of the formation and stabilization of metallic nanoparticles on carbon supports Z Huang, Y Yao, Z Pang, Y Yuan, T Li, K He, X Hu, J Cheng, W Yao, Y Liu, ... Nature communications 11 (1), 6373, 2020 | 65 | 2020 |
| On the influence of junction structures on the mechanical and thermal properties of carbon honeycombs X Gu, Z Pang, Y Wei, R Yang Carbon 119, 278-286, 2017 | 56 | 2017 |
| Damage-tolerant 3D-printed ceramics via conformal coating SM Sajadi, L Vásárhelyi, R Mousavi, AH Rahmati, Z Kónya, Á Kukovecz, ... Science Advances 7 (28), eabc5028, 2021 | 46 | 2021 |
| Toward stretchable batteries: 3D-printed deformable electrodes and separator enabled by nanocellulose J Qian, Q Chen, M Hong, W Xie, S Jing, Y Bao, G Chen, Z Pang, L Hu, T Li Materials Today 54, 18-26, 2022 | 45 | 2022 |
| Super-stretchable borophene Z Pang, X Qian, Y Wei, R Yang Europhysics Letters 116 (3), 36001, 2016 | 35* | 2016 |
| Defects guided wrinkling in graphene on copper substrate Z Pang, B Deng, Z Liu, H Peng, Y Wei Carbon 143, 736-742, 2019 | 32 | 2019 |
| Fabrication of cellulose–graphite foam via ion cross-linking and ambient-drying R Wang, C Chen, Z Pang, X Wang, Y Zhou, Q Dong, M Guo, J Gao, U Ray, ... Nano Letters 22 (10), 3931-3938, 2022 | 30 | 2022 |
| Lightweight, thermally insulating, fire‐proof graphite‐cellulose foam C Chen, Y Zhou, W Xie, T Meng, X Zhao, Z Pang, Q Chen, D Liu, R Wang, ... Advanced Functional Materials 33 (6), 2204219, 2023 | 27 | 2023 |
| Grain boundary and curvature enhanced lithium adsorption on carbon Z Pang, X Shi, Y Wei, D Fang Carbon 107, 557-563, 2016 | 21 | 2016 |
| Mechanics of cellulose nanopaper using a scalable coarse-grained modeling scheme U Ray, Z Pang, T Li Cellulose 28 (6), 3359-3372, 2021 | 19 | 2021 |
