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2019年文章


  1. Y. Xu, L. Yan*, M. Yue and Y. Yu, “Green Hydrothermal Synthesis of Fluorescent Carbon Dots from Glucose and Taurine for Fe3+ and pH Sensing,” Nano14, 1950014 (2019).

  2. Z. Zhao, W. Tan*, Y. Zheng, M. Wang and X. Liu, “Long-working-distance microscopic imaging through a scattering medium using supercontinuum illumination,” Phys. Scr.94, 045505 (2019).

  3. Y. Xu, L. Yan*, X. Li, and H. Xu, “Fabrication of transition metal dichalcogenides quantum dots based on femtosecond laser ablation”, Sci. Rep.9, 2931 (2019).

  4. Y. Yu,Jinhai Si*, L. Yan, M. Liand H. Xu, “ Enhanced nonlinear absorption and ultrafast carrier dynamics in graphene/gold nanoparticles nanocomposites”, Carbon148, 72-79 (2019).

  5. H. Xu, L. Yan*,Jinhai Si, Y. Xu, and X. Hou, "Femtosecond laser-assisted synthesis of ZnO nanoparticles in solvent with visible emission for temperature sensing", Nano14(05), 1950054 (2019).

  6. Y. Yu, L. Yan*,Jinhai Si, Y. Xu, and X. Hou, "Femtosecond laser assisted synthesis of gold nanorod and graphene hybrids and its photothermal property in the near-infrared region", Journal of Physics and Chemistry of Solids132C, 116-120(2019).

  7. X. Li, L. Yan*,Jinhai Si, H. Xu, and Y. Xu, "Tuning the photoluminescence property of carbon dots by ultraviolet light irradiation", RSC Advances9, 12732–12736 (2019).

  8. Yong, Jiale; Zhan, Zhibing; Singh, Subhash C.; Chen, Feng;* Guo, Chunlei* Microfluidic Channels Fabrication Based on Underwater Superpolymphobic Microgrooves Produced by Femtosecond Laser Direct Writing. ACS Applied Polymer Materials, 2019, 1(11): 2819-2825. (Cover)

  9. Yong, Jiale; Zhan, Zhibing; Singh, Subhash C.; Chen, Feng;* Guo, Chunlei* Femtosecond Laser-Structured Underwater "Superpolymhobic" Surfaces. Langmuir, 2019, 35(28): 9318-9322. (Cover)

  10. Cheng, Yang; Yang, Qing; Fang, Yao; Yong, Jiale;* Chen, Feng;* Hou, Xun Underwater Anisotropic Three-Dimensional (3D) Superoleophobic Tracks Applied for Directional Movement of Oil Droplets and the Micro-Droplets Reaction. Advanced Materials Interfaces, 2019, 6(10): 1900067. (Cover)

  11. Huo, Jinglan; Yong, Jiale;* Chen, Feng;* Yang, Qing; Fang, Yao; Hou, Xun Trapped Air-Induced Reversible Transition between Underwater Superaerophilicity and Superaerophobicity on the Femtosecond Laser-Ablated Superhydrophobic PTFE Surfaces. Advanced Materials Interfaces, 2019, 6(17): 1900262. (Front Cover)

  12. Yong, Jiale; Singh, Subhash C.; Zhan, Zhibing; Chen, Feng;* Guo, Chunlei* How to Obtain Six Different Superwettabilities on a Same Microstructured Pattern: Relationship between Various Superwettabilities in Different Solid/Liquid/Gas Systems. Langmuir, 2019, 35(4): 921-927. (ESI Highly Cited Paper)

  13. Yong, Jiale; Singh, Subhash C.; Zhan, Zhibing; Huo, Jinglan; Chen, Feng;* Guo, Chunlei* Reducing Adhesion for Dispensing Tiny Water/Oil Droplets and Gas Bubbles by Femtosecond Laser-Treated Needle Nozzles: Superhydrophobicity, Superoleophobicity, and Superaerophobicity. ChemNanoMat, 2019, 5(2): 241-249. (ESI Highly Cited Paper)

  14. M. Wang,Jinhai Si*,W. Tan, Y. Zheng, and Y. Yang, “Comparison of femtosecond shadowgraphy and optical Kerr gated ballistic imaging for measurements of spray structures”, Optics Express27, 16080-16087 (2019).[PDF]

  15. X. Pham,Jinhai Si*, Tao Chen, Zhen Niu, Fengqin Huang, and Xun Hou “Ultra-short DBR fiber laser with high-temperature resistance using tilted fiber Bragg grating output coupler,” Optics Express27, 38532-38540 (2019).[PDF]

  16. F. Huang, T. Chen∗,Jinhai Si, X. Pham, and X. Hou, “Fiber laser based on a fiber Bragg grating and its application in high-temperature sensing,” Optics Communication452, 233(2019).[PDF]

  17. Yong, Jiale; Singh, Subhash C.; Zhan, Zhibing; Chen, Feng;* Guo, Chunlei* Substrate-Independent, Fast, and Reversible Switching between Underwater Superaerophobicity and Aerophilicity on the Femtosecond Laser-Induced Superhydrophobic Surfaces for Selectively Repelling or Capturing Bubbles in Water. ACS Applied Materials & Interfaces, 2019, 5(2): 241-249.

  18. Liu, Feng; Yang, Qing; Chen, Feng;* Zhang, Fan; Bian, Hao; Hou, Xun Low-Cost High Integration IR Polymer Microlens Array, Optics Letters, 2019, 44(7): 1600-1602.

  19. Yong, Jiale; Singh, Subhash C.; Zhan, Zhibing; EIKabbash, Mohamed; Chen, Feng;* Guo, Chunlei* Femtosecond-Laser-Produced Underwater “Superpolymphobic” Nanorippled Surfaces: Repelling Liquid Polymers in Water for Applications of Controlling Polymer Shape and Adhesion. ACS Applied Nano Materials, 2019, 2(11): 7362-7371.

  20. Liu, Feng; Yang, Qing; Bian, Hao; Zhang, Fan; Hou, Xun; Kong, Depeng; Chen, Feng* Artificial Compound Eye-Tipped Optical Fiber for Wide Field Illumination. Optics Letter, 2019, 44(24): 5961-5964.

  21. Li, Minjing; Yang, Qing;* Yong, Jiale; Liang, Jie; Fang, Yao; Bian, Hao; Hou, Xun; Chen, Feng* Underwater Superoleophobic and Anti-Oil Microlens Array Prepared by Combing Femtosecond Laser Wet Etching and Direct Writing Techniques. Optics Express, 2019, 27(24): 35903-35913.

  22. Zhang, Jingzhou; Yong, Jiale;* Yang Qing; Chen, Feng;* Hou, Xun Femtosecond Laser-Induced Underwater Superoleophobic Surfaces with Reversible pH-Responsive Wettability. Langmuir, 2019, 35(9): 3295-3301.

  23. Yong, Jiale; Yang, Qing; Guo, Chunlei;* Chen, Feng;* Hou, Xun A Review of Femtosecond Laser-Structured Superhydrophobic or Underwater Superoleophobic Porous Surfaces/Materials for Efficient Oil/Water Separation. RSC Advances, 2019, 9(22): 12470-12495.

  24. Xi, Min; Yong, Jiale;* Chen, Feng;* Yang, Qing; Hou, Xun A femtosecond laser-induced superhygrophobic surface: beyond superhydrophobicity and repelling various complex liquids. RSC Advances, 2019, 9,(12): 6650-6657.

  25. Yin, Fei; Yang, Qing; Wang, Tao; Gao, Guilong; Ke, Kai; Yan, Xin; Li, Shaohui Ultrafast Time-Response Characteristics of AlGaAs Materials. Proceedings of SPIE, 2019, 10843: 108430W.

  26. Li Minjing; Yang, Qing;* Chen, Feng;* Yong, Jiale; Bian, Hao; Wei, Yang; Fang, Yao; Hou, Xun Integration of Great Water Repellence and Imaging Performance on a Superhydrophobic PDMS Microlens Array by Femtosecond Laser Microfabrication. Advanced Engineering Marerials, 2019, 21(3): 1800994.

  27. Dong, Yanhong; Yang, Qing; Du, Guangqing;* Chen, Feng;* Uddin, Noor; Lankanath, Dayantha; Hou, Xun Electronic Manipulation of Near-Field Nanofocusing in Few-Layer Graphene-Based Hybird Nanotips. Chinese Optics Letters, 2019, 17(7): 072501.

  28. Yong, Jiale; Yang, Qing;Chen, Feng;* Hou, Xun; Femtosecond laser-induced superwetting surface.Chinese Science Bulletin, 2019, 64(12): 1213-1237

  29. X. Pham,Jinhai Si*, T. Chen, F. Qin , and X. Hou, “Wide Range Refractive Index Measurement Based on Off-Axis Tilted Fiber Bragg Gratings Fabricated Using Femtosecond Laser,” Journal of Lightwave Technology,37(13), 3027-3034, (2019).[PDF]

  30. 13. Y. Yang, W. Tan,Jinhai Si*, J. Li, and S. Tang, “Influences of experimental parameters on characteristics of focusing through scattering media by wavefront shaping,” AIP advances,9(10), 105014, (2019).[PDF]

  31. Zhangcheng Liu, Dan Zhao, Tai Min, Juan Wang, Genqiang Chen, and Hong-Xing Wang, Photovoltaic Three-Dimensional Diamond UV Photodetector With Low Dark Current and Fast Response Speed Fabricated by Bottom-Up Method, IEEE ELECTRON DEVICE LETTERS, VOL. 40, NO. 7, JULY 2019.

  32. Dan Zhao, Zhangcheng Liu, Juan Wang, Wenyang Yi, Ruozheng Wang, Kaiyue Wang, and Hongxing Wang, Performance Improved Vertical Diamond Schottky Barrier Diode With FluorinationTermination Structure, IEEE ELECTRON DEVICE LETTERS, VOL. 40, NO. 8, AUGUST 2019.

  33. Dan Zhao, Zhangcheng Liua, Juan Wanga, Wenyang Yi, Ruozheng Wang, Wei Wang, Kaiyue Wang, Hongxing Wang, Reduction in reverse leakage current of diamond vertical Schottky barrier diode using SiNX field plate structure, Results in Physics 13 (2019) 102250.

  34. Dan Zhao, Zhangcheng Liu, Juan Wang, Wenyang Yi, Ruozheng Wang, Wei Wang, Kaiyue Wang, Hong-Xing Wang, Schottky barrier diode fabricated on oxygen-terminated diamond using a selective growth approach, Diamond & Related Materials 99 (2019) 107529.

  35. Liu ZC, Ahmed I, Wen F, et al., Photon bunching and N-photon interference in thermal light. Optics Communications, 434, 104-109 (2019).

  36. Liu ZC, Zhu TF, Wang YF, et al., Fabrication of Diamond Submicron Lenses and Cylinders by ICP Etching Technique with SiO2 Balls Mask, 12, 1622 (2019). Materials

  37. Jiao Fu, Yanfeng Wang, Juan Wang, Zhangcheng Liu, Ruozheng Wang, Tianfei Zhu, Yan Liang, Guoqing Shao, Zongchen Liu, Dan Zhao, Xiaohui Chang, Minghui Zhang, Hong-Xing Wang, "Fabrication of hundreds of microns three-dimensional single crystal diamond channel along with high aspect ratio by two-step process", Materials Letters, 255, 126556 (2019).

  38. Liang, Y., Zhu, T., Xi, M., Song, Y., Fu, J., Zhao, D., Wang, Y., Wang, J., Wang, K., and Wang, H., 2019, Fabrication of biomimetic compound eye on single crystal diamond: Optics Express, v. 27, no. 15, p. 20508.

  39. Yan-Feng Wang, Wei Wang, Xiaohui Chang, Xiaofan Zhang, Jiao Fu, Zhangcheng Liu, Dan Zhao, Guoqing Shao, Shuwei Fan, Renan Bu, Jingwen Zhang & Hong-Xing Wang, Hydrogen-terminated diamond field-effect transistor with AlOx dielectric layer formed by autoxidation. Scientific reports, 9, 5192 (2019).

  40. Yan-Feng Wang, Wei Wang, Xiaohui Chang, Feng Wen, Haris Naeem Abbasi, Ruozheng Wang, Jiao Fu, Zhangcheng Liu, Dan Zhao, Hong-Xing Wang, Hydrogen-terminated diamond field-effect transistor with a bilayer dielectric of HfSiO4/Al2O3. Diamond & Related Materials,2019,99,107530.

  41. Yan-Feng Wang, Wei Wang, Xiaohui Chang, Haris Naeem Abbasi, Xiaofan Zhang, Ruozheng Wang,Hong-Xing Wang, Performance of hydrogen-terminated diamond MOSFET with bilayer dielectrics of YSZ/Al2O3. Diamond & Related Materials,2019,99,107532.

  42. Minghui Zhang, Fang Lin, WeiWang, Fengnan Li, Yan-Feng Wang, Haris Naeem Abbasi, Dan Zhao, Genqiang Chen, Feng Wen, Jingwen Zhang, Renan Bu and Hongxing Wang*, Ohmic Contact of Pt/Au on Hydrogen-Terminated Single Crystal Diamond, coatings, 9,539 (2019).

  43. Rui Su, ZhangCheng Liu, XiaoHui Chang, Yan Liang, GenQang Chen, XiuLiang Yan, FengNan Li, GuoQing Shao, Jin Pan, Haris Naeem Abbasi, HongXing Wang, Characterization of UV photodetector based on ZnO/diamond film, Opt. Express 27 (2019), 36750-36756.

  44. Zongchen Liu, Irfan Ahmed, Feng Wen∗, Wei Wang, Shuwei Fan, Sijia Hui, Hong-Xing Wang, Photon bunching and N-photon interference in thermal light, Optics Communications, 434 (2019) 104–109

  45. Ran, C.; Gao, W.; Li, J.; Xi, J.; Li, L.; Dai, J.; Yang, Y.; Gao, X.; Dong, H.; Jiao, B.; Spanopoulos, I.; Malliakas, C.; Hou, X.; Kanatzidis, M.* and Wu, Z.*, Conjugated Organic Cations Enable Efficient Self-Healing FASnI3 Solar Cells, Joule, 2019, 3, 3072-3087

  46. Zu, Y.; Dai, J.; Li, L.; Yuan, F.; Chen, X.; Feng, Z.;Li, K.; Song, X.; Yun, F.; Yu, Y.; Jiao, B.; Dong, H.; Hou, X.; Ju, M. *and Wu, Z.*, Ultra-stable CsPbBr3 nanocrystals with near-unity photoluminescence quantum yield via postsynthetic surface engineering, Journal of Materials Chemistry A, 2019, 7, 26116-26122

  47. Gao, W.; Li, P.; Chen, J.; Ran, C.and Wu, Z.*, Interface Engineering in Tin Perovskite Solar Cells, Advanced Materials Interfaces, 2019, 6, 1901322

  48. Li, P.; Gao, W.;* Ran, C.; Dong, H.; Hou, X. and Wu, Z.*, Post-Treatment Engineering of Vacuum-Deposited Cs2NaBiI6 Double Perovskite Film for Enhanced Photovoltaic Performance, Phys. Status Solidi A 2019, 216, 1900567

  49. Zheng, Y.; Su, R.; Xu, Z.; Luo, D.; Dong, H.; Jiao, B.; Wu, Z.; Gong, Q.; Zhu, R.*, Perovskite solar cell towards lower toxicity: a theoretical study of physical lead reduction strategy, Science Bulletin, 64 (2019) 1255-1261

  50. Wang, G.; Li, J.; Li, Y.; Wang, D.; Zhang, J.; Wu, Y.; Zhen, Y.*, Tang, Q.; Ma, H.*, Hu, W.; Wu, Z. and Alex K.-Y. Jen, A new type of solid-state luminescent 2-phenylbenzo[g]furo[2,3-b]quinoxaline derivative: synthesis, photophysical characterization and transporting properties, Journal of Materials Chemistry C, 2019, 7, 9690-9697

  51. Sun, Y.; Yang, X.; Liu, B.; Dang, J.; Li, Y.; Zhou, G.*; Wu, Z.*and Wai-Yeung Wong *, Towards high performance solution-processed orange organic light-emitting devices: preciselyadjusting properties of Ir(III) complexes by reasonably engineering the asymmetric configuration with second functionalized cyclometalating ligands, Journal of Materials Chemistry C, 2019, 7, 8836-8846

  52. Zhong, D.; Yu, Y.; Song, D.; Yang, X.; Zhang, Y.; Chen, X.; Zhou, G.*, and Wu, Z.*, Organic Emitters with a Rigid 9-Phenyl-9-phosphafluorene Oxide Moiety as the Acceptor and Their Thermally Activated Delayed Fluorescence Behavior, ACS Applied. Materals. Interfaces, 2019, 11, 27112-27124

  53. Sun, Y.; Yang, X.; Feng, Z.; Liu, B.;Zhong, D.; Zhang, J.; Zhou, G.* and Wu, Z.*, Highly Efficient Deep-Red Organic Light-Emitting Devices Based on Asymmetric Iridium(III) Complexes with the Thianthrene 5,5,10,10-Tetraoxide Moiety, ACS Applied. Materals. Interfaces, 2019, 11, 26152-26164

  54. Wei, F.; Jiao, B.; Dong, H.*, Xu, J.; Lei, T.; Zhang, J.; Yu, Y.; Ma, L.; Wang, D.; Chen, J.; Hou X. and Wu, Z.*, Bifunctional p-conjugated ligand assisted stable and efficient perovskite solar cell fabrication via interfacial stitching, Journal of Materials Chemistry A, 2019, 7, 16533-16540

  55. Xi, J.; Piao, C.; Byeon, J.; Yoon, J.; Wu, Z.* and Mansoo Choi*, Rational Core-Shell Design of Open Air Low Temperature In Situ Processable CsPbI3 Quasi-Nanocrystals for Stabilized p-i-n Solar Cells, Advanced Energy Materals, 2019, 9, 1901787

  56. Feng, Z.; Yu, Y.; Yang, X.; Zhong, D.; Song, D.; Yang, H.; Chen, X.; Zhou, G.* and Zhaoxin Wu, Z.*, Isomers of Coumarin-Based Cyclometalated Ir(III) Complexes with Easily Tuned Phosphorescent Color and Features for Highly Efficient Organic Light-Emitting Diodes, Inorganic chemistry, 2019, 58, 7393-7408

  57. Yu, Y.; Ma, L.*; Feng, Z.; Liu, B.; Zhou, H.; Qin, H.; Li, H.; Song, J.; Zhou,G.* and Wu, Z.*, Strategy for achieving effiffifficient electroluminescence with reduced effiffifficiency roll-offff: enhancement of hot excitons spin mixing and restriction of internal conversion by twisted structure regulation using an anthracene derivative, Journal of Materials Chemistry C, 2019, 7, 5604-5614

  58. Dong, H.; Xi, J.; Zuo, L.; Li, J.; Yang, Y.; Wang, D.; Yu, Y.; Ma, L.; Ran, C.; Gao, W.; Jiao, B.; Xu, J.; Lei, T.;Wei, F.; Yuan, F.; Zhang, L.; Shi, Y.; Hou, X. and Wu, Z.*, Conjugated Molecules “Bridge”: Functional Ligand toward Highly Efficient and Long-Term Stable Perovskite Solar Cell, Advanced Functional Materals, 2019, 29, 1808119

  59. Zhang, W.; Lei, X.; Liu, J.; Dong, J.; Yan, X.; Gao, W.; Dong, H.; Ran, C.; Wu, Z., Efficient Charge Collection Promoted by Interface Passivation Using Amino Acid Toward High Performance Perovskite Solar Cells. Physica Status Solidi-Rapid Research Letters 2019, 13 (2).

  60. Yang, X.; Guo, H.; Xu, X.; Sun, Y.; Zhou, G.; Ma, W.; Wu, Z., Enhancing Molecular Aggregations by Intermolecular Hydrogen Bonds to Develop Phosphorescent Emitters for High-Performance Near-Infrared OLEDs. Advanced Science 2019, 6 (7).

  61. Xu, C.; Zhuang, B.; Geng, Y.; Chen, H.; Ren, L.; Wu, Z., A scanning-free wide-field single-fiber endoscopic image retrieval method based on optical transmission matrix. Laser Physics 2019, 29 (4).

  62. Xi, J.; Xi, K.; Sadhanala, A.; Zhang, K. H. L.; Li, G.; Dong, H.; Lei, T.; Yuan, F.; Ran, C.; Jiao, B.; Coxon, P. R.; Harris, C. J.; Hou, X.; Kumar, R. V.; Wu, Z., Chemical sintering reduced grain boundary defects for stable planar perovskite solar cells. Nano Energy 2019, 56, 741-750.

  63. Ran, C.; Gao, W.; Li, N.; Xia, Y.; Li, Q.; Wu, Z.; Zhou, H.; Chen, Y.; Wang, M.; Huang, W., Facet-Dependent Control of PbI2 Colloids for over 20% Efficient Perovskite Solar Cells. Acs Energy Letters 2019, 4 (1), 358-367.

  64. Guo, C.; Sun, Y.; Jia, Q.; Jiang, Z.; Jiang, D.; Wang, G.; Xu, Y.; Wang, T.; Tian, J.; Wu, Z.; Niu, Z., Wide spectrum responsivity detectors from visible to mid-infrared based on antimonide. Infrared Physics & Technology 2019, 96, 1-

  65. Yufeng Li, Peng Hu, Lungang Feng, Mengqi Du, Xilin Su, Qiang Li, Feng Yun, InGaN microtube optical resonator with sub-wavelength wall thickness and its, J. Appl. Phys

  66. Q Li,Z Tian,Y Zhang,Z Wang,Y Li,W Ding,T Wang,F Yun,3D ITO-nanowire networks as transparent electrode for all-terrain substrate.,Scientific Reportsvolume

  67. Qiang Li, Zuming Wang, Yuantao Zhang, Peng Hu, Tao Wang, Feng Yun,Indium tin oxide nanowires as voltage self-stabilizing supercapacitor electrodes,Journal of Materials Research

  68. Zhaoyang Zhang, Feng Li, G. Malpuech, Yiqi Zhang, O. Bleu, S. Koniakhin, Changbiao Li, Yanpeng Zhang, Min Xiao, D. D. Solnyshkov, “Particle-like behavior of topological defects in linear wave packets in photonic graphene”, Phys. Rev. Lett. 122(23), 233905 (2019).9.1845

  69. Feng Li, Yiming Li, Yin Cai, Peng Li, Haijun Tang, and Yanpeng Zhang, “Tunable open-access microcavities for solid-state quantum photonics and polaritonics”, Adv. Quantum Technol. 2(10), 1900060 (2019). (Invited Review) (Selected as Front Cover of AQT) 5.3099

  70. Xinghua Li, Ji Wu, Siqi Xiong, Mengting Chen, Hongye Yan, Zhiguo Wang, and Yanpeng Zhang, “Spatial and frequency multimode in dressing parametric amplified multi-wave mixing process”, Photonics Research 7(12), 1454-1460 (2019).7.2541

  71. Yuan Feng, Kangkang Li, Irfan Ahmed, Yameng Li, Wei Li, Guangchen Lan, and Yanpeng Zhang, “Generation of a Quadphoton via Seventh-Order Nonlinear Susceptibility”, Ann. Phys. (Berlin) 531(10), 1900072 (2019).3.0122

  72. Da Zhang, Irfan Ahmed, Ling Hao, Changbiao Li, Yiqi Zhang, and Yanpeng Zhang, “Temporally correlated narrowband biphoton interference based on Mach-Zehnder interferometer”, Ann. Phys. (Berlin) 531(12), 1900300 (2019).3.0122

  73. Peng Li, Taoli Yuan, Feng Li, and Yanpeng Zhang, “Phosphate ion-driven BiPO4:Eu phase transition”, J. Phys. Chem. C 123 (7), 4424-4432 (2019).4.1772

  74. Lin Cheng, Zhaoyang Zhang, Lei Zhang, Danmeng Ma, Gaoguo Yang, Tian Dong, and Yanpeng Zhang, “Manipulation of a ring-shaped beam via spatial self-and cross-phase modulation at low intensity”, Phys. Chem. Chem. Phys. 21, 7618 - 7622 (2019).3.945

  75. Junling Che, Jintao Bai, and Yanpeng Zhang, “Space imaging of six-wave mixing in a Rydberg dressing atomic ensemble”, IEEE Photonics Journal 11(2), 7800509 (2019).无

  76. Changbiao Li, Bingling Gu, Da Zhang, Wenjie Chen, Zan Shen, Guangchen Lan, and Yanpeng Zhang, “Modulation gain and squeezing by dressed state in hot atomic system”, Laser Phys. Lett. 16 (5), 055401 (2019).1.704

  77. Junling Che, Weiqi Jiang, Guangchen Lan, Shucai Wang, Siwei Xiang, and Yanpeng Zhang, “Spatial Images Evolution of Rydberg Nonlinear Process Controlled by Multiparameter Probe Field”, Opt. Commun. 433, 150-154 (2019).2.335

  78. Zhiguo Wang,Yanyong Sun, Jiawei Yang, and Yanpeng Zhang, “Interferograms of votex FWM beam for nonlinear spatial filter in photonic band gap”, IEEE Photonics Journal 11(1), 6100208 (2019).无

  79. Faizan Raza, Al Imran, Xinghua Li, Wei Li, Yameng Li, Jianyong Mao, and Yanpeng Zhang, “Multi-mode correlation with self- and cross-Rabi oscillation in a diamond nitrogen-vacancy center”, Laser Phys. Lett. 16(5), 055402 (2019).1.704

  80. Ruimin Wang, Tianyi Xie, Xinghua Li, Wei Li, Yameng Li, Jianyong Mao, and Yanpeng Zhang, “Competition between polarization-dressing and phonon effect in fourth-order Fluorescence of Pr3+:Y2SiO5”, ACS Omega 4, 1215-1220 ( 2019).4.1322

  81. Abubakkar Khan, Faizan Raza, Irfan Ahmed, Siqiang Zhang, Changbiao Li, Al Imran, and Yanpeng Zhang, “Optical temperature sensor and switch controlled by competition between phonon and polarization dressing in Pr3+: YSO”, OSA Continuum 2(3), 786-796 (2019).无

  82. Siqiang Zhang, Faizan Raza, Huanrong Fan, Yuan Feng, Al Imran, Kangkang Li, and Yanpeng Zhang, “Multi-channel optical router of coexisting two- and three-mode bunching”, Phys. Scr. 94, 085503 (2019).3.0809

  83. Weiqi Jiang, Xinghua Li, Fan Mu, Jianyong Mao, Yang Liu, and Yanpeng Zhang, “Two- and three-mode intensity-difference squeezing in cascaded four-wave mixing inside an optical cavity”, Laser Phys. Lett. 16(10), 105401 (2019).1.704

  84. Lin Cheng, Kun Wang, Jianyong Mao, Xiao Ming Goh, Zhiqin Chu, Yanpeng Zhang, and Lei Zhang, “Extrinsic Polarization-enabled Covert Plasmonic Colors using Aluminum Nanostructures”, Ann. Phys. (Berlin) 531(9), 1900073 (2019).3.0122

  85. Al Imran, Irfan Ahmed, Faizan Raza, Yiming Li, Abubakkar Khan, Habib Ullah, and Yanpeng Zhang, “Temperature switch and router of two and three-mode noise correlation in Pr3+: YSO crystal”, Physica Scripta 94, 125509 (2019).3.081

  86. Yameng Li, Yuan Feng, Wei Li, Kangkang Li, Yang Liu, Yuwei Lan, and Yanpeng Zhang, “Double-dressing tri and quad-photon correlations in spontaneous six and eight-wave mixing”, Physica Scripta 94, 105802 (2019).3.081

  87. Siqiang Zhang, Wei Li , Kangkang Li, Yameng Li, Fan Mu, Yuan Feng, Yang Liu, and Yanpeng Zhang, “Triphoton correlations in six-wave mixing”, Ann. Phys. 411, 168000 (2019).3.0122

  88. Lanxiao Huang, Zhiguo Wang, Yanyong Sun, Xinghua Li, and Yanpeng Zhang,“Dressed optical vortex in a hot atomic medium”, Laser Phys. Lett. 16(9), 096001 (2019 ).1.704

  89. Abubakkar Khan, Faizan Raza,Irfan Ahmed, Changbiao Li, Al Imran, Habib ullah, and Yanpeng Zhang, "Controlling fluorescence and noise correlation by phonon and double dressing in two type of Pr3+: YSO", J. Opt. Soc. Am.B 36(8), 1995-2000 (2019).2.0581

  90. Yang Liu, Faizan Raza, Kangkang Li, Habib Ullah, Yanpeng Zhang, Wenfu Zhang, and Wei Zhao, “Logic not gates of intensity-noise correlation and squeezing in diamond Nitrogen Vacancy center”, J. Opt. Soc. Am. B 36(10), 2727-2734 (2019).2.0581

  91. Guangchen Lan, Siqiang Zhang, Siwei Xiang, Shucai Wang, Zhiqiang Luo, Irfan Ahmed, and Yanpeng Zhang, “Three-photon polarized entanglement and interference generated using six-wave mixing and polarized dressing atomic coherence control”, OSA Continuum 2(11), 3153-3164 (2019).无

  92. Siqiang Zhang, Faizan Raza, Irfan Ahmed, Wei Li, Kaichao Jin, and Yanpeng Zhang, “¬¬¬¬Photon interference of second and third order correlation generated by two fluorescence sources”, J. Phys. Commun. 3(9), 095003 (2019).无

  93. Al Imran, Irfan Ahmed, Faizan Raza, Feng Yuan, Abubakkar Khan, Ruimin Wang, and Yanpeng Zhang, “Tunable hybrid spectral filter and time-division multiplexing of second-order fluorescence controlled by phonon and dressing on Pr3+:YSO”, Eng. Res. Express 1,025034 (2019).无

  94. Faizan Raza, Al Imran, Abubakkar Khan, Habib Ullah, Siqiang Zhang, Siqi Xiong, Irfan Ahmed, and Yanpeng Zhang, “Hybrid switch of correlation and squeezing using resonant and off-resonant excitation spectrum in Nitrogen-vacancy center diamond”, IEEE Photonics Journal 11(5), 6501110 (2019).无

  95. Ruimin Wang, Faizan Raza, Renjun Pang, Abubakkar Khan, Habib Ullah, and Yanpeng Zhang, “Multi-order quantum beating effect of three-photon temporal interference with nondegenerate fluorescence sources”, Results in Phys. 15, 102732 (2019).4.5652

  96. Lin Cheng, Jianyong Mao, Kun Wang, Jiangbo Lu, Kun Huang, Yanpeng Zhang, and Lei Zhang, “Rational design of colorimetric sensing for a customer-oriented index range using plasmonic substrates”, J. Opt. Soc. Am.B 36(11), 3168-3173 (2019).2.0581

  97. Yang Liu, Yin Cai, Yu Xiang, Feng Li, Yanpeng Zhang, and Qiongyi He, “Tripartite Einstein-Podolsky-Rosen steering with linear and nonlinear beamsplitters in four-wave mixing of Rubidium atoms”, Opt. Express 27(23) 33070-33079 (2019).3.8330

  98. Huanrong Fan, Al Imran, Faizan Raza, Irfan ahmed, Kamran Amjad, Peng Li, and Yanpeng Zhang, “Double cascade dressed MOSFET transistor from doped Eu3+and Pr3+ in a host YPO4”, RSC Advances 9, 38828-38833 (2019).4.0356

  99. Yang Liu, Kangkang Li, Siqiang Zhang, Huanrong Fan, Wei Li, and Yanpeng Zhang, “Generation of correlated biphoton via four-wave mixing coexisting with multi-order fluorescence processes”, Scientific Reports 9, 20065 (2019).4.9958

  100. Perfect matching of concave diffraction grating with continuously circular Bragg mirrors on SOI platform[J]. Yuzheng Mao, Jingping Zhu, Ke Li, et al. Journal of the Optical Society of America A, 2019, 36 (4): 641-646.

  101. High-Sensitivity and Long-Life Microchannel Plate Processed by Atomic Layer Deposition. Weiwei Cao, Bingli Zhu , Bai Bai, et al. Nanoscale Research Letters 14.1(2019).

  102. Zhang, P.; Yi, W*.; Bai, L.; Tian, Y.; Hou, J.; Jin, W.; Si, J.; Hou, X., Enrichment of large-diameter semiconducting single-walled carbon nanotubes by a mixed-extractor strategy. Chemistry-an Asian Journal 2019, 14 (21), 3855-3862.

  103. Xu, H.; Yi, W*.; Li, D.; Zhang, P.; Yoo, S.; Bai, L.; Hou, J.; Hou, X., Obtaining high mechanical performance silk fibers by feeding purified carbon nanotube/lignosulfonate composite to silkworms. Rsc Advances 2019, 9 (7), 3558-3569.

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