2024
64. Yinzheng Zhang, Hongjiang Liu, Runlin Zhu, Yifei Liu, Fuxing Gu*.
High‑precision laser trapping and intelligent motion control of micro/nano‑objects on solid interfaces.
固体界面上微纳物体的高精度激光捕获及智能运动控制.
Chinese Journal of Lasers 51, 1507403 (2024). (in chinese).
63. Zhangxing Shi#, Tianci Shen#, Lin Dou, Zhaoqi Gu, Runlin Zhu, Xinyi Dong, Fuxing Gu*,
Optical trapping of few-layered materials on solid substrates for in situ and dynamic fabrication.
Laser Photon. Rev. 18, 2400384 (2024).(#denotes equal contribution authors)
62. Runlin Zhu, Tianci Shen, Zhaoqi Gu, Zhangxing Shi, Lin Dou, Yifei Liu, Songlin Zhuang, Fuxing Gu*
Amphibious hybrid laser tweezers for fluid and solid domains.
ACS Nano 18, 23232 (2024).
61. Feng Liao*, Haidong Huang, Qingqing Xie, Yuhan Zeng, Li Liang, Fuxing Gu, and Zewen Zuo*
Broadband tunable resonance modes from multi-composition monolayer MoS2(1−x)Se2x with SiO2 microsphere ca vity.
Appl. Phys. Lett. 124, 243103 (2024).
60. Kun Yue#, Xialian Feng#, Jiaxin Yu*, and Fuxing Gu
Long-range air-host plasmonic propagation with subwa velength confinement.
Front. Phys. 12, 1386585 (2024). (#denotes equal contribution authors)
59. Hongjiang Liu, Yifei Liu, and Fuxing Gu*
Automatic fabrication system of optical micro-/nanofiber based on deep learning.
基于深度学习的微纳光纤自动制备系统.
Acta Phys. Sin. 73, 104207 (2024). (物理学报编辑推荐, Editors' Pick)
58. Jian Peng#, Runlin Zhu#, Zhaoqi Gu, Hongyu Zhang, Lin Dou, Yanna Ma* and Fuxing Gu*
Plasmonic-nanowire near-field beam analyzer.
Nanophotonics 13, 881 (2024). (# denotes equal contribution authors) (Selected as Cover)
57. Yanna Ma, Shuangyi Linghu, Bohuan Chen, and Fuxing Gu*
Continuous ultra-wideband signal regeneration in random optoelectronic oscillators through injection locking.
Opt. Express 32, 9847 (2024).
2023
56. Zhaoqi Gu#, Runlin Zhu#, Tianci Shen#, Lin Dou, Hongjiang Liu, Yifei Liu, Xu liu, Jia Liu, Songlin Zhuang, and Fuxing Gu*
Autonomous nanorobots with powerful thrust under dry solid-contact conditions by photothermal shock.
Nature Commun. 14, 7663 (2023). (#denotes equal contribution authors)
55. Jian Peng#, Runlin Zhu#, Tianci Shen, Yuchun Liu, Yanna Ma*, and Fuxing Gu*
2D saturable absorbers for potential pulse generation in the visible-wa velength band.
Photonics 10, 543 (2023). (#denotes equal contribution authors)
2022
54. Yanna Ma, Yuchun Liu*, Xin Tan, Tianci Shen, and Fuxing Gu*
Tailoring photoluminescence and optoelectrical properties of MoS2 monolayers on Au interdigital electrodes.
Jpn. J. Appl. Phys. 61, 100906 (2022). (Rapid Communications)
53. Yuchun Liu, Xin Tan, Tianci Shen, and Fuxing Gu*
Enhanced photoluminescence of monolayer MoS2 on stepped gold structure.
Chin. Phys.B 31, 087803 (2022).
52. Shuangyi Linghu#, Yanna Ma#, Zhaoqi Gu, Runlin Zhu, Yifei Liu, Hongjiang Liu, and Fuxing Gu*
Thermal-mechanical-photo-activation effect on silica micro/nanofiber surfaces: origination, reparation and utilization.
Opt. Express 30, 22755 (2022). (#denotes equal contribution authors)
51. Yuchun Liu, Tianci Shen, Shuangyi Linghu, Ruilin Zhu, and Fuxing Gu*
Electrostatic control of photoluminescence from A and B excitons in monolayer molybdenum disulfide.
Nanoscale Adv. 4, 2484 (2022).
50. Lin Dou, Yanna Ma*, Zhaoqi Gu, Jiatong Liu, and Fuxing Gu*
Passive near-field optical scanning imaging based on semiconductor nanowire/tapered microfiber probe.
基于半导体纳米线/锥形微光纤探针的被动式近场扫描成像.
Acta Phys. Sin. 71, 044201 (2022). (物理学报编辑推荐, Editors' Pick)
49. Jiaxin Yu*#, Shuai Xing#, Guangyu Dai, Shuangyi Linghu, and Fuxing Gu*
Direct-bandgap bilayer WSe2/microsphere monolithic ca vity for low-threshold lasing.
Adv. Mater. 34, 2106502 (2022). (# denotes equal contribution authors)
2021
48. Yanna Ma, Xin Jing, and Fuxing Gu*
Stable and tunable optoelectronic oscillator with external stimulated Brillouin beat note injection.
IEEE Photon. Technol. Lett. 33, 1085 (2021).
47. Jiaxin Yu*, Liquan Yang, and Fuxing Gu*
Metal substrate modulation for realizing a more compact whispering-gallery microca vity.
App. Phys. Express 14, 064001 (2021).
46. Yuchun Liu and Fuxing Gu*
A wafer-scale synthesis of monolayer MoS2 and their field-effect transistors toward practical applications.
Nanoscale Adv. 3, 2117 (2021).
45. Shuangyi Linghu#, Zhaoqi Gu#, Jinsheng Lu, Wei Fang, Zongyin Yang, Huakang Yu, Zhiyuan Li, Runlin Zhu, Jian Peng, Qiwen Zhan, Songlin Zhuang, Min Gu, and Fuxing Gu*
Plasmon-driven nanowire actuators for on-chip manipulation.
Nature Commun. 12, 385 (2021). (#denotes equal contribution authors)
2020
44. Ni Yao, Shuangyi Linghu, Yingxin Xu, Runlin Zhu, Ning Zhou, Fuxing Gu, Lei Zhang, Wei Fang*, Wei Ding*, Limin Tong
Ultra-long subwa velength micro/nanofibers with low loss.
IEEE Photon. Technol. Lett. 32, 1069 (2020).
43. Yipeng Lun, Ziyu Zhan, Fuxing Gu, Pan Wang, Huakang Yu*, and Zhiyuan Li
Ca vity mode manipulated by single gold nanoparticles.
APL Photon. 5, 061304 (2020).
2019
42. Feng Liao#, Jiaxin Yu#, Zhaoqi Gu#, Zongyin Yang, Tawfique Hasan, Shuangyi Linghu, Jian Peng, Wei Fang, Songlin Zhuang, Min Gu, and Fuxing Gu*
Enhancing monolayer photoluminescence on optical micro/nanofibers for low-threshold lasing.
Sci. Adv. 5, eaax7398 (2019). (#denotes equal contribution authors)
41. Zongyin Yang, Tom Albrow-Owen, Hanxiao Cui, Jack Alexander-Webber, Fuxing Gu, Xiaomu Wang, Tien-Chun Wu, Minghua Zhuge, Calum Williams, Pan Wang, Anatoly V.Zayats, Weiwei Cai, Lun Dai, Stephan Hofmann, Mauro Overend, Limin Tong, Qing Yang, Zhipei Sun, and Tawfique Hasan*
Single nanowire spectrometers.
Science 365, 1017 (2019).
40. Tian Tian, Bin Cai*, Qingqing Cheng, Cheng Fan, Yanyan Wang, Gongjie Xu, Fuxing Gu, Feng Liao, Okihiro Sugihara, Eiji Hase, and Takeshi Yasui.
One-drop self-assembly of ultra-fine second-order organic nonlinear optical crystal nanowires.
Nanoscale Res. Lett. 14, 269 (2019).
39. Saima Ubaid, Feng Liao, Tao Guo, Zhaoqi Gu, Shuangyi LingHu, Yanna Ma, Jiaxin Yu, and Fuxing Gu*
Direct single-mode lasing in polymer microbottle resonators through surface destruction.
Chin. Opt. Lett. 17, 121401 (2019). (Selected as Editors' Pick)
2018
38. Yunyuan Zhang, Huakang Yu*, Xiangke Wang, Wanling Wu, Fuxing Gu, and Zhiyuan Li*
Theoretical analysis of optical force density distribution inside subwa velength-diameter optical fibers.
Chin. Phys. B. 27, 104210 (2018).
37. Saima Ubaid, Feng Liao, Shuangyi LingHu, Jiaxin Yu, and Fuxing Gu*
Electrospun polymer bottle microresonators for stretchable single-mode lasing devices.
Opt. Lett. 43, 3128 (2018).
36. Jiaxin Yu, Fang Liu, Zhaoqi Gu, Fuxing Gu*, and Songlin Zhuang
Efficient higher-order nonlinear optical effects in CdSe nanowa veguides.
Opt. Express 26, 6880 (2018).
35. Feng Liao, Yu Wang, Tao Peng, Jian Peng, Zhaoqi Gu, Huakang Yu*, Tao Chen*, Jiaxin Yu, and Fuxing Gu*
Highly efficient nonlinear optical conversion in wa veguiding GaSe nanoribbons with pump pulses down to a Femto-Joule level.
Adv. Optical Mater. 6, 1701012 (2018). (Selected as Back Cover)
2017
34. Fuming Xie, Ni Yao, Wei Fang, Haifeng Wang, and Fuxing Gu*, and Songlin Zhuang
Single-mode lasing via loss engineering in fiber-taper coupled polymer bottle microresonators.
Photon. Res. 5, B29 (2017)
33. Jiaxin Yu, Feng Liao, Fang Liu, Fuxing Gu*, and Heping Zeng*
Surface-enhanced fluorescence in metal nanoparticle-doped polymer nanofibers via wa veguiding excitation.”
Appl. Phys. Lett. 110, 163101 (2017).
32. Fuxing Gu*, Fuming Xie, Xing Lin, Shuangyi LingHu, Wei Fang, Heping Zeng*, Limin Tong, and Songlin Zhuang*
Single whispering-gallery-mode lasing in polymer bottle microresonators via spatial pump engineering.”
Light Sci. Appl. 6, e17061 (2017).
Highlighted by News and Views in Light Sci. Appl. (2017) 6, e17102; doi:10.1038/lsa.2017.102
2016
31. Fuxing Gu*, Hongbin Cui, Feng Liao, Xing Lin, Haifeng Wang, and Heping Zeng*
“Mode tailoring in subwa velength-dimensional semiconductor micronanowa veguides by coupling optical microfibers.”
Opt. Express 24, 23361 (2016).
30. Jiajia Zhou, Fuxing Gu, Xiaofeng Liu, and Jianrong Qiu*
“Enhanced Multiphoton Upconversion in Single Nanowires by Wa veguiding Excitation.”
Adv. Optical Mater. 4, 1174 (2016).
29. Jiaxin Yu, Feng Liao, Fuxing Gu*, and Heping Zeng*
“Frequency-resolved optical gating measurement of ultrashort pulses by using single nanowire.”
Sci. Rep. 6, 33181 (2016).
2015
28. Li Zhang,Guoqing Wu, Fuxing Gu*, and Heping Zeng*
“Single MoO3 nanoribbon wa veguides: good building blocks as elements and interconnects for nanophotonic applications.”
Sci. Rep. 5, 17388 (2015).
27. Fuxing Gu*, Li Zhang, Yingbin Zhu*, and Heping Zeng*
“Free-space coupling of nanoantennas and whispering-gallery microca vities with narrowed linewidth and enhanced sensitivity.”
Laser Photon. Rev. 9, 682 (2015). (Selected as Back Cover)
26. Xi Wu, Fuxing Gu*, and Heping Zeng*
“Palladium-coated silica microfiber knots for enhanced hydrogen sensing.”
IEEE Photon. Technol. Lett. 27, 1228 (2015).
25. Fuxing Gu, Guoqing Wu, and Heping Zeng*
“Hybrid photon-plasmon Mach-Zehnder interferometers for high-sensitive hydrogen sensing.”
Nanoscale 7, 924 (2015).
24. Fuxing Gu*, Guoqing Wu, Li Zhang, and Heping Zeng
“Above-bandgap surface-emitting frequency conversion in semiconductor nanoribbons with ultralow continuous-wa ve pump power.”
IEEE J. Sel. Top. Quant. 21, 7600106 (2015).
2014
23. Fuxing Gu, Li Zhang, Guoqing Wu, Y. B. Zhu, Heping Zeng*
“Sub-bandgap transverse frequency conversion in semiconductor nano-wa veguides.”
Nanoscale 6, 12371 (2014).
22. Fuxing Gu, Heping Zeng*, Yingbin Zhu, Qing Yang, L. K. Ang, and Songlin Zhuang
“Single-crystal Pd and its alloy nanowires for plasmon propagation and highly sensitive hydrogen detection.”
Adv. Optical Mater. 2, 189 (2014).
Highlighted by Materials Views China (http://www.materialsviewschina.com/2014/03/ba-na-mi-xian-biao-mian-deng-li-ji-yuan-xing-chuan-gan-qi/)。
2013
21. Fuxing Gu, Heping Zeng*, Limin Tong*, and Songlin Zhuang
“Metal single-nanowire plasmonic sensors.”
Opt. Lett. 38, 1826 (2013)
20. Fuxing Gu, Huakang Yu, Wei Fang, Limin Tong*
“Nanoimprinted polymer micro nanofiber Bragg gratings for high-sensitive strain sensing.”
IEEE Photon. Technol. Lett. 25, 22 (2013).
19. Yize Lu, Fuxing Gu, Chao Meng, Huakang Yu, Yaoguang Ma, Wei Fang*,and Limin Tong
“Multicolour laser from a single bandgap-graded CdSSe alloy nanoribbon.”
Opt. Express 21, 22314 (2013).
2012
18. Fuxing Gu, Huakang Yu, Wei Fang*, and Limin Tong*
“Low-threshold supercontinuum generation in semiconductor nanoribbons by continuous-wa ve pumping.”
Opt. Express 20, 8667 (2012).
2011
17. Huakang Yu, Wei Fang*, Fuxing Gu, Min Qiu, Zongyin Yang, and Limin Tong*
“Longitudinal Lorentz force on a subwa velength-diameter optical fiber.”
Phys. Rev. A 83, 053830 (2011).
16. Pan Wang, Fuxing Gu, Lei Zhang, and Limin Tong*
“Polymer microfiber rings for high-sensitivity optical humidity sensing.”
Appl. Opt. 50, G7 (2011).
15. Yao Xiao, Chao Meng, Pan Wang, Yu Ye, Huakang Yu, Shanshan Wang, Fuxing Gu, Lun Dai, Limin Tong*
“Single-nanowire single-mode Laser.”
Nano Lett. 11, 1122 (2011).
14. Fuxing Gu, Huakang Yu, Wei Fang, and Limin Tong*
“Broad spectral response in composition-graded CdSSe single nanowires via wa veguiding excitation.”
Appl. Phys. Lett. 99, 181111 (2011).
13. Fuxing Gu, Lei Zhang, Huakang Yu, Wei Fang, Jiming Bao, and Limin Tong*
“Large defect-induced sub-bandgap photoresponse in semiconductor nanowires via wa veguiding excitation.”
Nanotechnol. 22, 425201 (2011).
12. Fuxing Gu, Pan Wang, Huakang Yu, Bing Guo, and Limin Tong*
“Optical quenching of photoconductivity in CdSe single nanowires via wa veguiding excitation.”
Opt. Express 19, 10880 (2011).
11. Fuxing Gu#, Zongyin Yang#, Huakang Yu, Jinyou Xu, Pan Wang, Limin Tong*, and Anlian Pan*
“Spatial bandgap engineering along single alloy nanowires.”
J. Am. Chem. Soc. 133, 2037 (2011). (#denotes equal contribution authors)
2010
10. Fuxing Gu, Huakang Yu, Pan Wang, Zongyin Yang, Limin Tong*
“Light-emitting polymer single nanofibers via wa veguiding excitation.”
ACS Nano 4, 5332 (2010).
9. Pan Wang, Lei Zhang, Zongyin Yang, Fuxing Gu, Shanshan Wang, Qing Yang, and Limin Tong*
“Fusion spliced microfiber closed-loop resonators.”
IEEE Photon. Technol. Lett. 22, 1075 (2010).
2009
8. Fuxing Gu, Xuefeng Yin, Huakang Yu, Pan Wang, and Limin Tong*
“Polyaniline/polystyrene single-nanowire devices for highly selective optical detection of gas mixtures.”
Opt. Express 17, 11230 (2009).
7. Wei Dai, Qing Yang, Fuxing Gu, Limin Tong*
“ZnO subwa velength wires for fast-response midinfrared detection.”
Opt. Express 17, 21808 (2009).
6. Ye Ding, Qing Yang, Xin Guo, Shanshan Wang, Fuxing Gu, Jian Fu, Qing Wan, Jipeng Cheng, and Limin Tong*
“Nanowires microfiber hybrid structure multicolor laser.”
Opt. Express 23, 21813 (2009).
5. Huakang Yu, Shanshan Wang, Jian Fu, Min Qiu, Yuhang Li, Fuxing Gu, and Limin Tong*
“Modeling bending losses of optical nanofibers or nanowires.”
Appl. Opt. 48, 4365 (2009).
2008
4. Fuxing Gu, Lei Zhang, Xuefeng Yin, and Limin Tong*
“Polymer single-nanowire optical sensors.”
Nano Lett. 8, 2757 (2008).
Highlighted by Nanoscale Res. Lett. (4: 94-95, (2008)) 及Nature China (doi:10.1038/nchina.2008.192)。
3. Lei Zhang, Fuxing Gu, Jingyi Lou, Xuefeng Yin, and Limin Tong*
“Fast detection of humidity with a subwa velength-diameter fiber taper coated with gelatin film.”
Opt. Express 16, 13349 (2008).
2. Lei Zhang, Fuxing Gu, Limin Tong*, and Xuefeng Yin*
“Simple and cost-effective fabrication of two-dimensional plasticnanochannels from silica nanowire templates.”
Microfluid. Nanofluid. 5, 727 (2008).
1. Qing Yang, Xiaoshun Jiang, Fuxing Gu, Zhe Ma, Jiangyang Zhang, Limin Tong*
“Polymer micro or nanofibers for optical device applications.”
J. Appl. Polym. Sci. 110, 1080 (2008).
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