| Hydrophobic light‐to‐heat conversion membranes with self‐healing ability for interfacial solar heating L Zhang, B Tang, J Wu, R Li, P Wang Advanced Materials 27 (33), 4889-4894, 2015 | 906 | 2015 |
| Organ-on-a-chip: Recent breakthroughs and future prospects Q Wu, J Liu, X Wang, L Feng, J Wu, X Zhu, W Wen, X Gong Biomedical engineering online 19 (1), 1-19, 2020 | 621 | 2020 |
| Inkjet printing for direct micropatterning of a superhydrophobic surface: toward biomimetic fog harvesting surfaces L Zhang, J Wu, MN Hedhili, X Yang, P Wang Journal of Materials Chemistry A 3 (6), 2844-2852, 2015 | 327 | 2015 |
| A simple method for fabricating multi-layer PDMS structures for 3D microfluidic chips M Zhang, J Wu, L Wang, K Xiao, W Wen Lab on a Chip 10 (9), 1199-1203, 2010 | 247 | 2010 |
| A facile strategy for the fabrication of a bioinspired hydrophilic–superhydrophobic patterned surface for highly efficient fog-harvesting Y Wang, L Zhang, J Wu, MN Hedhili, P Wang Journal of Materials Chemistry A 3 (37), 18963-18969, 2015 | 203 | 2015 |
| Point-of-care testing detection methods for COVID-19 Q Song, X Sun, Z Dai, Y Gao, X Gong, B Zhou, J Wu, W Wen Lab on a Chip 21 (9), 1634-1660, 2021 | 184 | 2021 |
| Extraction, amplification and detection of DNA in microfluidic chip-based assays J Wu, R Kodzius, W Cao, W Wen Microchimica Acta 181 (13-14), 1611-1631, 2014 | 128 | 2014 |
| Inhibitory effect of common microfluidic materials on PCR outcome R Kodzius, K Xiao, J Wu, X Yi, X Gong, IG Foulds, W Wen Sensors and Actuators B: Chemical 161 (1), 349-358, 2012 | 126 | 2012 |
| Polydimethylsiloxane microfluidic chip with integrated microheater and thermal sensor J Wu, W Cao, W Wen, DC Chang, P Sheng Biomicrofluidics 3 (1), 012005, 2009 | 116 | 2009 |
| Generation and manipulation of “smart” droplets X Niu, M Zhang, J Wu, W Wen, P Sheng Soft Matter 5 (3), 576-581, 2009 | 86 | 2009 |
| Influence of liquid phase on nanoparticle-based giant electrorheological fluid X Gong, J Wu, XX Huang, W Wen, P Sheng Nanotechnology 19 (16), 165602, 2008 | 82 | 2008 |
| Synergistic optimization toward the sensitivity and linearity of flexible pressure sensor via double conductive layer and porous microdome array B Ji, Q Zhou, J Wu, Y Gao, W Wen, B Zhou ACS applied materials & interfaces 12 (27), 31021-31035, 2020 | 80 | 2020 |
| Fabrication of efficient metal halide perovskite solar cells by vacuum thermal evaporation: A progress review S Wang, X Li, J Wu, W Wen, Y Qi Current Opinion in Electrochemistry 11, 130-140, 2018 | 71 | 2018 |
| Design and integration of an all-in-one biomicrofluidic chip L Liu, W Cao, J Wu, W Wen, DC Chang, P Sheng Biomicrofluidics 2 (3), 034103, 2008 | 71 | 2008 |
| Efficient and anisotropic fog harvesting on a hybrid and directional surface J Wu, L Zhang, Y Wang, P Wang Advanced Materials Interfaces 4 (2), 1600801, 2017 | 69 | 2017 |
| Are vacuum-filtrated reduced graphene oxide membranes symmetric? B Tang, L Zhang, R Li, J Wu, MN Hedhili, P Wang Nanoscale 8 (2), 1108-1116, 2016 | 67 | 2016 |
| A simple and cost-effective method for fabrication of integrated electronic-microfluidic devices using a laser-patterned PDMS layer M Li, S Li, J Wu, W Wen, W Li, G Alici Microfluidics and nanofluidics 12 (5), 751-760, 2012 | 67 | 2012 |
| Fast detection of genetic information by an optimized PCR in an interchangeable chip J Wu, R Kodzius, K Xiao, J Qin, W Wen Biomedical microdevices 14 (1), 179-186, 2012 | 54 | 2012 |
| Polydimethylsiloxane-integratable micropressure sensor for microfluidic chips L Wang, M Zhang, M Yang, W Zhu, J Wu, X Gong, W Wen Biomicrofluidics 3 (3), 034105, 2009 | 54 | 2009 |
| Microdroplet-based universal logic gates by electrorheological fluid M Zhang, L Wang, X Wang, J Wu, J Li, X Gong, J Qin, W Li, W Wen Soft Matter 7 (16), 7493-7497, 2011 | 47 | 2011 |
Weijia WenThe Hong Kong University of Science and Technology在 ust.hk 的电子邮件经过验证
