5. H. Jia, H. Zeng, J. Zhang, X. Wang, Y. Lu, L. Yu*. Robot calibration sampling data optimization method based on improved robot observability metrics and binary simulated annealing algorithm. Sensors, 2024, 24(19): 6171. (IF=3.4,中科院3区)
6. H. Jia, H. Chen, C. Chen, Y. Huang, Y. Lu, R. Gao, L. Yu*, Research on Path Planning Technology of a Line Scanning Measurement Robot Based on the CAD Model[J]. Actuators, 2024, 13(8): 310. (IF=2.2,中科院3区)
7. C. Chen, H. Jia, Y. Lu, A. Wu, X. Zhang, B. Lin, J. Zhang, X. Wang, L. Yu*, Research on the application of a dynamic programming method based on geodesic distance for path planning in Robot-Assisted laser scanning measurement of Free-Form surfaces. MEASUREMENT, 2024, 238, 115317. (IF=5.2, 中科院2区TOP)
8. C. Chen, H. Jia, B. Lin, J. Zhang, X. Wang, L. Yu*, Application of Robot 3D Laser Line Scanning Measurement Path Planning Method Based on Suboptimal Viewpoint in Free-form Surface Parts Measurement. Eleventh International Symposium on Precision Mechanical Measurements, 2024, 13178, 131780S.
9. 贾华坤, 陈浩涵, 陈晨, 高荣科, 陆洋, 于连栋*, 基于工业机器人的三维扫描测量实验平台设计[J]. 实验室研究与探索, 2024, 43(2): 93-97.
10. Y. Wang, R. Gao* ,C. Ma, H. Liu, H. Zhu, H. Jin, F. Wang, Z. Cheng, Y. Feng and L. Yu*, Dynamically controllable hot spots in DNA-derived hydrogel scaffold SERS substrate for exosome recognition using DNA self-assembly amplification. Chemical Engineering Journal, 2024, 496, 154270. (IF=13.3,中科院1区)
15. Liu T, Jiang T, Liu G, Sun C*. Temperature uncertainty reduction algorithm based on temperature distribution prior for optical sensors in oil tank ground settlement monitoring [J]. Sensors, 2024, 24(7): 2341. (IF=3.4,中科院3区)
16. Sen Yu, Zhenru Wang, Lirong Qiu,Qidai Chen,Weiqian Zhao*, High-precision and high-speed surface topography measurement method of microstructures based on laser scanning transverse differential confocal, Measurement, 2024, 226, 114208. (IF=5.6, 中科院2区Top)
17. T. Jing, H.K. Nam, D. Yang, Y. Lee, R. Gao, H. Yoo, S. Kwon, S.-W. Kim, L. Yu*, Y.-J. Kim*,In Situ Transfer of Laser-Induced Graphene Electronics for Multifunctional Smart Windows.Small Science ,2024, 2400010.(IF:11.1,中科院1区)
18. M. Wang, H.Nam, D.Yang,Y. Lee, Y. Lu, S. Kim, L. Yu*, &Y. Kim*,Green smart multifunctional wooden roofs enabled by single-step hydrophobic laser-induced graphene fabrication. Carbon, 2024, 119373.(IF=10.5,中科院2区)
19. H. Li, Y. Lu, S. Zhou, T. Jing , J. Wang, C. Ma, Seo, MK,L. Yu*, Packaged WGM MBR sensor for high-performance temperature measurement using CNN-based multimode barcode images. Optics Express, 2024, 32.4: 5515-5528.. (IF=3.8,中科院2区)
20. Z. Wang , Y. Wen, Y. Ma ,Y. Tian , Y, Cui, W. Peng , F. Wang and Y. Lu* ,Two-step Fourier single-pixel imaging for secure and efficient hidden information transmission.Optics Express, 2024, 32.23: 41255-41269. (IF=3.8,中科院2区)
21. Y. Lu, M. Y. Wang, D. Y. Wang, Y. H. Sun, Z. H. Liu, R. K. Gao, L. Yu*, D. Zhang*. Flexible impedance sensor based on Ti3C2T x MXene and graphitic carbon nitride nanohybrid for humidity - sensing application with ultrahigh response. Rare Metals, 2023, 42(7): 2204 - 2213. (IF:8.8,中科院1区)
22. 于森, 王振儒, 邱丽荣, 崔健, 赵维谦*, 激光扫描横向差动共焦显微系统研制, 光学学报, 2024, 44 (22): 2211002. (EI, 封面文章)
23. Y. Lu, C. Zhan, L. Yu,* Y. Yu, H. Jia, X. Chen, D. Zhang and R. Gao,* “Multifunctional nanocone array as solid immunoassay plate and SERS substrate for the early diagnosis of prostate cancer on microfluidic chip”, Sensors and Actuators B: Chemical, 2023, 376, 133046. (IF=8.4,中科院1区, 被引次数:20)
24. Y. Lu, Y. Yu, Y. Wang, W. Zhou, Z. Cheng, L. Yu*, S. Zheng and R. Gao,* “A micro-nano interface integrated SERS-based microfluidic sensor for miRNA detection using DNAzyme walker amplification”, Analytica chimica acta, 2023, 1283, 341957. (IF=6.2,中科院1区,被引次数:3)
25. Y. Liu, R. Gao*, Y. Zhuo, Y. Wang, H. Jia, X. Chen, Y. Lu, D. Zhang and L. Yu*, “Rapid simultaneous SERS detection of dual myocardial biomarkers on single-track finger-pump microfluidic chip”, Analytica chimica acta, 2023, 1239, 340673. (IF=6.2,中科院1区,被引次数:18)
26. J. Wang, M. Wang, Y. Lu, Q. Hao, L. Yu*,Parallel all-optical logic operations based on metasurface polarization optics.Chinese Optics Letters, 2023, 21.10: 101602 .(IF=3.5,中科院2区)
27. Y. Lu, C. Zhan, L. Yu*, Y. Yu, H. Jia, X. Chen, D. Zhang, R. Gao*. Multifunctional nanocone array as solid immunoassay plate and SERS substrate for the early diagnosis of prostate cancer on microfluidic chip. Sensors and Actuators B: Chemical, 2023, 376: 133046. (IF:8.4,中科院1区)
28. Y. Lu, Y. Yu, Y. Wang, W. Zhou, Z. Cheng, L. Yu*, S. Zheng*, R. Gao*. A micro - nano interface integrated SERS - based microfluidic sensor for miRNA detection using DNAzyme walker amplification. Analytica Chimica Acta, 2023, 1283: 341957. (IF:6.2,中科院2区)
29. Liu T, Jiang T, Liu G, Sun C*. Transfer-learning-based temperature uncertainty reduction algorithm for large scale oil tank ground settlement monitoring[J]. Sensors, 2023, 24(1): 215. (IF=3.4,中科院3区)
30. Liu T, Liu G, Jiang T, Sun C*. Curve Similarity analysis for reducing the temperature uncertainty of optical sensor for oil-tank ground settlement monitoring[J]. Sensors, 2023, 23(19): 8287. (IF=3.4,中科院3区)
31. Liu T, Liu G, Liu G, Lu Z, Wang K, Kiesewetter D, Jiang T, Victor M, Sun C*. Loading test on the oil tank ground settlement performance monitored by an optical parallel scheme[J]. Applied Optics, 2023, 62(17): 4691-4698. (IF=1.7,中科院3区)
32. F. Wang, L. Jiang, C. Pan, Z. Wang, Y. Lian, Q. Wang, W. Tao, J. Sun*, Hologram imaging quality improvement by ionization controlling based on the self-trapped excitons with double-pulse femtosecond laser[J]. Nanophotonics, 2022, 11(21), 4727-4736. (IF=7.923,中科院2区)
33. R. Gao*, Y. Mao, C. Ma, Y. Wang, H. Jia, X. Chen, Y. Lu, D. Zhang and L. Yu*, “SERS-Based Immunoassay of Myocardial Infarction Biomarkers on a Microfluidic Chip with Plasmonic Nanostripe Microcones”, ACS applied materials & interfaces, 2022, 14, 55414-55422. (IF=9.5,中科院1区, 被引次数:17)
34. R. Gao*, F. Chen, D. Yang, L. Zheng, T. Jing, H. Jia, X. Chen, Y. Lu, S. Xu, D. Zhang and L. Yu*, “Simultaneous SERS-based immunoassay of dual cardiac markers on pump-free hybrid microfluidic chip”, Sensors and Actuators B: Chemical, 2022, 369, 132378. (IF=8.4,中科院1区, 被引次数:20)
35. Liu T, Zhang P, Guo J, Liu F, Sun C*. In situ ground settlement sensor for oil-tank monitoring by combining a fiber-optic low-coherent interferometry with a fine mechanical design[J]. Applied Optics, 2022, 61(14): 3980-3986. (IF=1.7,中科院3区)
36. M. Wang, C. Pan, Y. Lu*, & L. Yu*,Detection of copper in solution by laser-induced breakdown spectroscopy based on nanoparticle chip. Optical Engineering, 2022, 61.6: 061408-061408. (IF=1.1,中科院4区)
37. J.Wang, Y. Lu, X. Sun, H. Zhao, X. Jin, H. Gao, L. Yu*, Chirped pulse spectrally resolved interferometry without the direction ambiguity and the dead zone. Optics and Lasers in Engineering, 2022, 152: 106892. (IF:4.6,中科院2区)
38. X. Jin, Y. Yang, X. Xu, K. Wang, L. Yu*, H. Xia. Broadband manipulation of Stokes Raman frequency combs via mode division multiplexing in optical microcavities. Journal of Lightwave Technology, 2022, 40(15), 5141-5151. (IF: 4.1,中科院2区)
39. X. Xu, H. Ye, X. Jin, H. Gao, D. Chen, Y. Lu, L. Yu*. Regulation of soliton inside microresonators with multiphoton absorption and free-carrier effects. Optics Express, 2022, 30(16), 28997-29006. (IF: 3.2,中科院2区)
40. H. Gao, X. Long, X. Jin, X. Xu, Y. Lu, D. Bian, L. Yu*. Highly stabilized delay optical path with a long fiber toward absolute distance measurement. Measurement Science and Technology, 2022, 133(5), 055203. (IF: 2.7, 中科院3区)
41. T. Li, L. Zhu, L. Lu, R. You, X. Bian, G. Ren, L. Yu*. Highly sensitive optical fiber plasmonic sensors by integrating hydrogen doped molybdenum oxide. IEEE Sensors Journal, 2022, 22(8), 7734-7742. (IF: 4.3, 中科院3区)
42. X. Xu, H.Ye, X. Jin, H. Gao, D. Chen, Y. Lu, L. Yu*, Influence of High-order Dispersion on Turing Patterns in Microresonators.Acta Photonica Sinica, 1004-4213(2022)51:11.( IF:0.6,中科院4区)
43. F. Wang, L. Jiang, J. Sun*, C. Pan, Y. Lu, One-step fabrication method of GaN films for internal quantum efficiency enhancement and their ultrafast mechanism investigation. ACS Applied Materials & Interfaces, 2021, 13(6), 7688–7697. (IF=10.383,中科院2区)
44. R. Gao*, C. Zhan, C. Wu, Y. Lu, B. Cao, J. Huang, F. Wang and L. Yu*, “Simultaneous single-cell phenotype analysis of hepatocellular carcinoma CTCs using SERS-aptamer based microfluidic chip”, Lab on a Chip, 2021, 21, 3888–3898. (IF=6.1, 中科院1区, 被引次数:33)
45. X. Xu, X. Jin, H. Gao, H. Ye, D. Chen, Y. Lu, L. Yu*. Detuning regulation of temporal solitons in a CaF2 microcavity. Journal of Optics, 2021, 23(12), 125501. (IF: 2, 中科院4区)
46. X. Jin, X. Xu, H. Gao, K. Wang, H. Xia, L. Yu*. Controllable two-dimensional Kerr and Raman–Kerr frequency combs in microbottle resonators with selectable dispersion. Photonics Research, 2021, 9(2), 171-180. (IF: 6.6, 中科院1区)
47. D. Bian, K. N. Joo, Y. Lu*, L. Yu*. Spherical wavefront measurement on modified cyclic radial shearing interferometry. Optics Express, 2021, 29(23): 38347-38358. (IF: 3.8,通讯,中科院3区)
48. X. Xu, X. Jin, J. Cheng, H. Gao, Y. Lu, L. Yu*. Analysis of dark soliton generation in the microcavity with mode-interaction. Chinese Physics B, 2021, 30(2), 024210. (IF: 1.5, 中科院3区)
49. X. Tian, G. Cai, D. Zhi, K. Fan, Z.-l. Song, B. Qiu, L. Jia and R. Gao*, “A transparent vessel-on-a-chip device for hemodynamic analysis and early diagnosis of intracranial aneurysms by CFD and PC-MRI”, ACS Sensors, 2020, 5, 4064-4071. (IF= 8.9,中科院1区,被引次数:4)
50. R. Gao,* X. Tian, Q. Li, X. Song, B. Shao, J. Zeng, Z. Liu, D. Zhi, G. Zhao, H. Xia, B. Qiu*, G. Chen, K. Liang, P. Chen, D. Zhao, and B. Kong*, “Artificial blood vessel frameworks from 3d printing-based super-assembly as in-vitro models for early diagnosis of intracranial aneurysms”, Chemistry of Materials, 2020, 32, 3188−3198. (IF= 8.6,中科院1区, 被引次数:8)
51. R. Gao,* H. Qian, C. Weng, X. Wang, C. Xie, K. Guo, S. Zhang, S. Xuan, Z. Guo* and L.-B. Luo,* “A SERS stamp: multiscale coupling effect of silver nanoparticles and highly ordered nano-micro hierarchical substrates for ultrasensitive explosive detection”, Sensors and Actuators B: Chemical, 2020, 321, 128543. (IF=8.4,中科院1区,被引次数:42)
52. R. Gao*, X. Song, C. Zhan, C. Weng, S. Cheng, K. Guo, N. Ma, H. Chang, Z. Guo, L.-B. Luo and L. Yu*, “Light trapping induced flexible wrinkled nanocone SERS substrate for highly sensitive explosive detection”, Sensors and Actuators B: Chemical, 2020, 314, 128081. (IF=8.4,中科院1区, 被引次数:78)
53. R. Gao*, L. Cheng, S. Wang, X. Bi, X. Wang, R. Wang, X. Chen, Z. Zha, F. Wang, X. Xu, G. Zhao* and L. Yu*, “Efficient separation of tumor cells from untreated whole blood using a novel multistage hydrodynamic focusing microfluidics”, Talanta, 2020, 207, 120261. (IF=6.1, 中科院1区, 被引次数:42)
54. F. Wang, C. Pan, J. Sun, Q. Wang, Y. Lu, L. Jiang*, Direct observation of structure-assisted filament splitting during ultrafast multiple-pulse laser ablation[J]. Optics Express, 2019, 27(7), 10050-10057.(IF=3.833,中科院2区)
55. R. Gao*, Z. Lv, Y. Mao, L. Yu, X. Bi, S. Xu, J. Cui and Y. Wu *, “SERS based pump-free microfluidic chip for highly sensitive immunoassay of prostate-specific antigen biomarkers”. ACS Sensors, 2019, 4, 938-943. (IF= 8.9,中科院1区, 被引次数:93)
56. R. Gao*, Y. Wu, J. Huang, L. Song, H. Qian, X. Song, L. Cheng, R. Wang, L. Luo, G. Zhao and L. Yu*, “Development of a portable and sensitive blood serum test system using LED-based absorption photometry and pump-free microfluidic technology”, Sensors and Actuators B: Chemical, 2019, 286, 86-93. (IF=8.4,中科院1区, 被引次数:23)
57. D. Kim, Y. Lu, J. Park, B. Kim, L. Yan, L. Yu, S. W. Kim*,Rigorous single pulse imaging for ultrafast interferometric observation. Optics Express, 2019, 27(14): 19758-19767. (IF:3.8,中科院3区)
58. Y. Lu, J. Park, D. Bian, L. Yu* ,S. W. Kim*. Simultaneous 3 - D surface profiling of multiple targets by repetition rate scanning of a single femtosecond laser. International Journal of Precision Engineering and Manufacturing, 2019: 1 - 7. (SCI IF:1.9,中科院4区)
59. Y. Lu, J. Park, L. Yu*,S. W. Kim*.3D profiling of rough silicon carbide surfaces by coherence scanning interferometry using a femtosecond laser. Applied Optics, 2018, 57(10): 2584 - 2589. (IF:1.9,中科院4区)
60. 贾华坤, 赵会宁, 韩丽玲, 姜一舟, 于连栋*, 阿贝原则在角度测量上的拓展应用研究[J]. 仪器仪表学报, 2018, 39(11): 133-139.
61. R. Gao,* Z. Cheng, X. Wang, L. Yu, Z. Guo, G. Zhao, J. Choo,* “Simultaneous immunoassays of dual prostate cancer markers using a SERS-based microdroplet channel”, Biosensors & Bioelectronics, 2018, 119, 126-133. (IF=12.6,中科院1区,被引次数:90)
62. R. Gao, Z. Cheng, A. J. deMello, and J. Choo*, “Wash-free magnetic immunoassay of the PSA cancer marker using SERS and droplet microfluidics”. Lab on a Chip, 2016, 16, 1022–1029. (IF=6.1, 被引次数:187)
63. R. Gao, J. Ko, K. Cha, J. H. Jeon, G. Rhieb, J. Choi, A. J. deMello* and J. Choo*, “Fast and sensitive detection of an anthrax biomarker using SERS-based solenoid microfluidic sensor”, Biosensors & Bioelectronics, 2015, 72, 230-236. (IF=12.6, 被引次数: 83)
64. R. Gao, N. Choi, S.-I. Chang, E. K. Lee and J. Choo*, “Real-time analysis of diaquat dibromide monohydrate in water with a SERS-based integrated microdroplet sensor”, Nanoscale, 2014, 6, 8781-8786. (IF=6.7, 被引次数: 46)
65. E. Chung‡, R. Gao‡, J. Ko, N. Choi, D. W. Lim, E. K. Lee, S.-I. Chang and J. Choo,* “Trace analysis of mercury(II) ions using aptamermodified Au/Ag core–shell nanoparticles and SERS spectroscopy in a microdroplet channel”,Lab on a Chip, 2013, 13, 260-266. (IF=6.1, 被引次数: 149)
66. Y. Zheng, G. Zhao*, Y. Zhang, and R. Gao, “On-chip loading and unloading of cryoprotectants facilitate cell cryopreservation by rapid freezing”, Sensors and Actuators B: Chemical, 2018, 255, 647-656. (IF=8.4, 被引次数:22)
67. R. Gao, N. Choi, S.-I. Chang, S. H. Kang, J. M. Song, S. I. Cho, D. W. Lim and J. Choo*, “Highly sensitive trace analysis of paraquat using a surface-enhanced Raman scattering microdroplet sensor”, Analytica Chimica Acta, 2010, 681, 87–91. (IF=6.2, 中科院1区, 被引次数: 105)
