| Highly flexible and efficient solar steam generation device C Chen, Y Li, J Song, Z Yang, Y Kuang, E Hitz, C Jia, A Gong, F Jiang, ... Advanced materials 29 (30), 1701756, 2017 | 764 | 2017 |
| Chemically and mechanically isolated nanocellulose and their self-assembled structures F Jiang, YL Hsieh Carbohydrate Polymers, 2013 | 608 | 2013 |
| Tree‐inspired design for high‐efficiency water extraction M Zhu, Y Li, G Chen, F Jiang, Z Yang, X Luo, Y Wang, SD Lacey, J Dai, ... Advanced Materials 29 (44), 1704107, 2017 | 529 | 2017 |
| Cellulose nanofibrils enhanced, strong, stretchable, freezing‐tolerant ionic conductive organohydrogel for multi‐functional sensors Y Ye, Y Zhang, Y Chen, X Han, F Jiang Advanced Functional Materials 30 (35), 2003430, 2020 | 527 | 2020 |
| Wood‐based nanotechnologies toward sustainability F Jiang, T Li, Y Li, Y Zhang, A Gong, J Dai, E Hitz, W Luo, L Hu Advanced Materials 30 (1), 1703453, 2018 | 461 | 2018 |
| Amphiphilic superabsorbent cellulose nanofibril aerogels F Jiang, YL Hsieh Journal of Materials Chemistry A 2 (18), 6337-6342, 2014 | 437 | 2014 |
| Mesoporous, three-dimensional wood membrane decorated with nanoparticles for highly efficient water treatment F Chen, AS Gong, M Zhu, G Chen, SD Lacey, F Jiang, Y Li, Y Wang, J Dai, ... Acs Nano 11 (4), 4275-4282, 2017 | 426 | 2017 |
| Rich mesostructures derived from natural woods for solar steam generation C Jia, Y Li, Z Yang, G Chen, Y Yao, F Jiang, Y Kuang, G Pastel, H Xie, ... Joule 1 (3), 588-599, 2017 | 387 | 2017 |
| Anisotropic, lightweight, strong, and super thermally insulating nanowood with naturally aligned nanocellulose T Li, J Song, X Zhao, Z Yang, G Pastel, S Xu, C Jia, J Dai, C Chen, ... Science advances 4 (3), eaar3724, 2018 | 383 | 2018 |
| Cellulose ionic conductors with high differential thermal voltage for low-grade heat harvesting T Li, X Zhang, SD Lacey, R Mi, X Zhao, F Jiang, J Song, Z Liu, G Chen, ... Nature materials 18 (6), 608-613, 2019 | 375 | 2019 |
| Lightweight, mesoporous, and highly absorptive all-nanofiber aerogel for efficient solar steam generation F Jiang, H Liu, Y Li, Y Kuang, X Xu, C Chen, H Huang, C Jia, X Zhao, ... ACS applied materials & interfaces 10 (1), 1104-1112, 2018 | 347 | 2018 |
| Cellulose nanocrystal isolation from tomato peels and assembled nanofibers F Jiang, YL Hsieh Carbohydrate Polymers 122, 60-68, 2015 | 324 | 2015 |
| High‐performance solar steam device with layered channels: artificial tree with a reversed design H Liu, C Chen, G Chen, Y Kuang, X Zhao, J Song, C Jia, X Xu, E Hitz, ... Advanced Energy Materials 8 (8), 1701616, 2018 | 323 | 2018 |
| Super water absorbing and shape memory nanocellulose aerogels from TEMPO-oxidized cellulose nanofibrils via cyclic freezing–thawing F Jiang, YL Hsieh Journal of Materials Chemistry A 2 (2), 350-359, 2014 | 270 | 2014 |
| Adsorption and desorption of cationic malachite green dye on cellulose nanofibril aerogels F Jiang, DM Dinh, YL Hsieh Carbohydrate polymers 173, 286-294, 2017 | 265 | 2017 |
| Acid-Catalyzed and Solvolytic Desulfation of H2SO4-Hydrolyzed Cellulose Nanocrystals F Jiang, AR Esker, M Roman Langmuir 26 (23), 17919-17925, 2010 | 257 | 2010 |
| Super‐strong, super‐stiff macrofibers with aligned, long bacterial cellulose nanofibers S Wang, F Jiang, X Xu, Y Kuang, K Fu, E Hitz, L Hu Advanced Materials 29 (35), 1702498, 2017 | 245 | 2017 |
| Flexible, scalable, and highly conductive garnet‐polymer solid electrolyte templated by bacterial cellulose H Xie, C Yang, K Fu, Y Yao, F Jiang, E Hitz, B Liu, S Wang, L Hu Advanced Energy Materials 8 (18), 1703474, 2018 | 209 | 2018 |
| Controlled defibrillation of rice straw cellulose and self- assembly of cellulose nanofibrils into highly crystalline fibrous materials F Jiang, S Han, YL Hsieh RSC Advances 3, 12366-12375, 2013 | 170 | 2013 |
| Cellulose nanofibril aerogels: synergistic improvement of hydrophobicity, strength, and thermal stability via cross-linking with diisocyanate F Jiang, YL Hsieh ACS Applied Materials & Interfaces 9 (3), 2825-2834, 2017 | 161 | 2017 |
