Google Scholar: https://scholar.google.com/citations?user=QmXTkS0AAAAJ&hl=zh-CN
42. F. Wang, F. Ren, Z. Ma, L. Qu, R. Gourgues, I. E. Zadeh, Y. Zhong, C. Xu, A. Baghdasaryan, J. Li, N. Los, A. Fognini, J. Qin-Dregely and H. Dai, “In vivo Non-Invasive Confocal Fluorescence Imaging Beyond 1700 nm Using Superconducting Nanowire Single-Photon Detectors,” Nature Nanotechnology 17, 653–660 (2022).
41. F. Wang, H. Wan, Z. Ma, Q. Sun, Y. Tian, L. Qu, H. Du, M. Zhang, L. Li, H. Ma, J. Luo, Y. Liang, W. J. Li, G. Hong, L. Liu and H. Dai, “Light-sheet microscopy in the near-infrared II window,” Nature Methods 16, 545-552 (2019).
40. Y. Zhong*, Z. Ma*, F. Wang*, X. Wang, Y. Yang, Y. Liu, X. Zhao, J. Li, H. Du, M. Zhang, Q. Cui, S. Zhu, Q. Sun, H. Wan, Y. Tian, Q. Liu, W. Wang, K. C. Garcia and H. Dai, “In vivo molecular imaging for immunotherapy using ultra-bright near-infrared-IIb rare-earth nanoparticles,” Nature Biotechnology, 37, 1322-1331 (2019). (* Co-first author)
39. F. Wang, L. Qu, F. Ren, A. Baghdasaryan, R. Hsu, P. Liang, J. Li, G. Zhu, Z. Ma and H. Dai, “High Precision Tumor Resection Down to Few-Cell Level Guided by NIR-IIb Molecular Fluorescence Imaging,” Proceedings of the National Academy of Sciences, 119, e2123111119 (2022).
38. F. Wang, Z. Ma, Y. Zhong, F. Salazar, C. Xu, F. Ren, L. Qu, A. M. Wu and H. Dai, “In vivo NIR-II structured-illumination light-sheet microscopy,” Proceedings of the National Academy of Sciences, 118, e2023888118 (2021).
37. F. Wang, L. Liu, H. Yu, Y. Wen, P. Yu, Z. Liu, Y. Wang, and W. J. Li, “Scanning Superlens Microscopy for Non-invasive Large Field-of-view Visible Light Nanoscale Imaging,” Nature Communications, 7, 13748 (2016).
36. A. Baghdasaryan*, F. Wang*, F. Ren, Z. Ma, J. Li, L. Grigoryan, C. Xu and H. Dai, “Super-Stealth Molecular Gold Clusters for Lymph Node Imaging in the NIR-II Optical Window,” Nature Communications, 13, 5613 (* Co-first author, 2022).
35. Z. Ma*, F. Wang*, Y. Zhong, F. Salazar, J. Li, M. Zhang, F. Ren, A. M. Wu and H. Dai, “Cross-Link-Functionalized Nanoparticles for Rapid Excretion in Nanotheranostic Applications,” Angewandte Chemie International Edition, 59, 20552-20560 (2020). (* Co-first author)
34. F. Wang, L. Liu, G. Li, P. Li, Y. Wen, G. Zhang, Y. Wang, G.-B. Lee and W. J. Li, “Thermometry of photosensitive and optically induced electrokinetics chips,” Microsystems & Nanoengineering, 4, 26 (2018).
33. F. Wang, L. Liu, P. Yu, Z. Liu, H. Yu, Y. Wang, and W. J. Li, “Three-dimensional Super-resolution Morphology by Near-field Assisted White-light Interferometry,” Scientific Reports, 6, 24703 (2016).
32. F. Wang, H. S. S. Lai, L. Liu, P. Li, H. Yu, Z. Liu, Y. Wang, and W. J. Li, “Super-resolution Endoscopy for Real-time Wide-field Imaging,” Optics Express, 23, 16803-16811, (2015).
31. F. Wang, L. Liu, and W. J. Li, “Graphene-based Glucose Sensors: A Brief Review,” IEEE Transactions on Nanobioscience, 14, 818-834 (2015).
30. F. Wang, P. Li, D. Wang, L. Li, S. Xie, L. Liu, Y. Wang, and W. J. Li, “Mechanically Modulated Dewetting by Atomic Force Microscope for Micro- and Nano- Droplet Array Fabrication,” Scientific Reports, 4, 6524 (2014).
29. F. Wang, F. Fei, L. Liu, H. Yu, P. Yu, Y. Wang, G. B. Lee, and W. J. Li, “Exploring Pulse-voltage-triggered Optically Induced Electrohydrodynamic Instability for Femtolitre Droplet Generation,” Applied Physics Letters, 104, 264103 (2014).
28. F. Wang, H. Yu, W. Liang, L. Liu, J. D. Mai, G. B. Lee, and W. J. Li, “Optically Induced Electrohydrodynamic Instability-based Micro-patterning of Fluidic Thin Films,” Microfluidics and Nanofluidics, 16, 1097-1106 (2014).
27. F. Wang, H. Yu, N. Liu, J. D. Mai, L. Liu, G. B. Lee, and W. J. Li, “Non-ultraviolet-based Patterning of Polymer Structures by Optically Induced Electrohydrodynamic Instability,” Applied Physics Letters, 103, 5 (2013).
26. Z. Ma, F. Wang, W. Wang, Y. Zhong, and H. Dai, “Deep learning for in vivo near-infrared imaging,” Proceedings of the National Academy of Sciences, 118, e2021446118 (2021).
25. Q. Liu, J. Tian, Y. Tian, Q. Sun, D. Sun, F. Wang, H. Xu, G. Ying, J. Wang, A. K. Yetisen, and N. Jiang, “Near-Infrared-II Nanoparticles for Cancer Imaging of Immune Checkpoint Programmed Death-Ligand 1 and Photodynamic/Immune Therapy,” ACS Nano, 15, 515-525, (2021).
24. W. Zhao, H. Yu, Y. Wen, P. Li, X. Wang, F. Wang, Y. Yang, L. Liu, W. J. Li, “Improving photoacoustic-imaging axial positioning accuracy and signal-to-noise ratio using acoustic echo effect”, Sensors and Actuators A: Physical, 329, 112788 (2021).
23. Q. Liu, J. Tian, Y. Tian, Q. Sun, D. Sun, D. Liu, F. Wang, H. Xu, G. Ying, J. Wang, A. K. Yetisen, N. Jiang, “Thiophene donor for NIR-II fluorescence imaging-guided photothermal/photodynamic/chemo combination therapy” Acta Biomaterialia, 127, 287-297 (2021).
22. T. Zhang, H. Yu, P. Li, X. Wang, F. Wang, J. Shi, Z. Liu, P. Yu, W. Yang, Y. Wang, and L. Liu, Microsphere-Based Super-Resolution Imaging for Visualized Nanomanipulation. ACS Applied Materials & Interfaces 12, 48093-48100 (2020).
21. T. Zhang, P. Li, H. Yu, F. Wang, X. Wang, T. Yang, W. Yang, W. J. Li, Y. Wang, and L. Liu, “Fabrication of flexible microlens arrays for parallel super-resolution imaging,” Applied Surface Science, Applied Surface Science 504, 144375 (2020).
20. P. Li, G. Li, H. Yu, F. Wang, L. Liu, W. J. Li, “Advances in Dielectric Microspherical Lens Nanoscopy: Label-Free Superresolution Imaging”, IEEE Nanotechnology Magazine, 15, 38-C3 (2020).
19. Y. Wen, H. Yu, W. Zhao, P. Li, F. Wang, Z. Ge, X. Wang, L. Liu, and W. J. Li, “Scanning Super-Resolution Imaging in Enclosed Environment by Laser Tweezer Controlled Superlens,” Biophysical Journal 119, 1–10 (2020).
18. H. Luo, H. Yu, Y. Wen, T. Zhang, P. Li, F. Wang, and L. Liu, “Enhanced high-quality super-resolution imaging in air using microsphere lens groups,” Optics Letters, 45, 2981-2984, 2020.
17. B. Jia, P. Li, F. Wang, H. Y. Chan, G. Zhang, and W. J. Li, “Determination of Microsphere-Lens Magnification Using Micro-Robotic Scanning Superlens Nanoscopy,” IEEE Open Journal of Nanotechnology, 1, 65-76, 2020.
16. H. Wan, H. T. Du, F. Wang, and H. J. Dai, “Molecular Imaging in the Second Near-Infrared Window,” Advanced Functional Materials, 29, 25, 2019.
15. W. X. Zhao, H. B. Yu, Y. D. Wen, F. Wang, Y. Yang, Z. Liu, L. Q. Liu, and W. J. Li, “Detection of micro/nano-particle concentration using modulated light-emitting diode white light source,” Sensors and Actuators a-Physical, 285, 89-97, 2019.
14. Y. Wen, H. Yu, W. Zhao, F. Wang, X. Wang, L. Liu, and W. J. Li, “Photonic Nanojet Sub-Diffraction Nano-Fabrication With in situ Super-Resolution Imaging,” IEEE Transactions on Nanotechnology, 18, 226-233, 2019.
13. G. Li, F. Wang, W. Yang, J. Yang, Y. Wang, W. Wang, and L. Liu, “Development of an image biosensor based on an optogenetically engineered cell for visual prostheses,” Nanoscale, 11, 28, 13213-13218, 2019.
12. G. Li, F. Wang, W. Yang, W. Wang, G. Li, Y. Wang, and L. Liu, “Imaging with Optogenetically Engineered Living Cells as a Photodetector,” Advanced Biosystems, 3, 8, 1800319, 2019.
11. B. Jia, F. Wang, H. Chan, G. Zhang, and W. J. Li, “In situ printing of liquid superlenses for subdiffraction-limited color imaging of nanobiostructures in nature,” Microsystems & Nanoengineering, 5, 1, 1, 2019.
10. M. Zhang, J. Yue, R. Cui, Z. Ma, H. Wan, F. Wang, S. Zhu, Y. Zhou, Y. Kuang, Y. Zhong, D.-W. P., H. Dai, “Bright quantum dots emitting at ∼ 1,600 nm in the NIR-IIb window for deep tissue fluorescence imaging,” Proceedings of the National Academy of Sciences, 201806153 (2018).
9. H. Wan, H. Ma, S. Zhu, F. Wang, Y. Tian, R. Ma, Q. Yang, Z. Hu, T. Zhu, W. Wang, Z. Ma, M. Zhang, Y. Zhong, H. Sun, Y. Liang, and H. Dai, “Developing a Bright NIR-II Fluorophore with Fast Renal Excretion and Its Application in Molecular Imaging of Immune Checkpoint PD-L1,” Advanced Functional Materials, 28, 50, 1804956, (2018).
8. P. Li, H. Yu, N. Liu, F. Wang, G.B. Lee, Y. Wang, L. Liu, W. J. Li, “Visible light induced electropolymerization of suspended hydrogel bioscaffolds in a microfluidic chip,” Biomater. Sci., 6, 1371–1378 (2018).
7. G. Li, J. Yang, W. Yang, F. Wang, Y. Wang, W. Wang, L. Liu, “Label-free multidimensional information acquisition from optogenetically engineered cells using a graphene transistor,” Nanoscale 10 (5), 2285-2290 (2018)
6. Y. Wen, F. Wang, H. Yu, P. Li, L. Liu and W. J. Li, “Laser-Nanomachining by Microsphere Induced Photonic Nanojet,” Sensors and Actuators A: Physical, 258,115 (2017).
5. N. Liu, F. Wang, L. Liu, H. Yu, S. Xie, J. Wang, Y. Wang, G. B. Lee and W. J. Li, “Rapidly patterning micro/nano devices by directly assembling ions and nanomaterials,” Scientific Reports, 6: 32106 (2016).
4. H. S. S. Lai, F. Wang, Y. Li, L. Liu and W. J. Li, “Super-Resolution Real Imaging in Microsphere-Assisted Microscopy,” PLOS ONE, 11, e0165194 (2016).
3. D. Wang, P. Yu, F. Wang, H. Y. Chan, L. Zhou, Z. Dong, L. Liu, and W. J. Li, “Improving Atomic Force Microscopy Imaging by A Direct Inverse Asymmetric PI Hysteresis Model,” Sensors, 15, 3409-25 (2015).
2. P. Li, N. Liu, H. Yu, F. Wang, L. Liu, G. B. Lee, Y. Wang and W. J. Li. Silver Nanostructures Synthesis via Optically Induced Electrochemical Deposition. Scientific Reports, 6: 28035 (2016).
1. J. Shi, L. Liu, P. Zhou, F. Wang, and Y. Wang, “Subnanomachining by Ultrasonic-vibration-assisted Atomic Force Microscopy,” IEEE Transactions on Nanotechnology, 14, 735-741 (2015).