近期论文
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2018年至今:
(28) Liu Yang*, Xinan Xu, Yi Yuan, Zhihao Li, and Sailing He*, Meter-scale transparent conductive circuits based on silver nanowire networks for rigid and flexible transparent light-emitting diode screens, Optical Materials Express, 2019, 9(12): 4483-4496. (highlighted as an Editor's Pick)
News Release: New Technology Poised to Lower Cost and Expand Applications for Transparent LED Screens
(27) Hao Dai, Liu Yang*, and Sailing He*, < 50-μm thin crystalline silicon heterojunction solar cells with dopant-free carrier-selective contacts, Nano Energy, 2019, 64: 103930. (IF: 15.548)
(26) Zhipeng Hu, Yuan Zhang*, Liu Liu, Liu Yang, and Sailing He, A nanostructure-based high-temperature selective absorber-emitter pair for a solar thermophotovoltaic system with narrowband thermal emission, Progress in Electromagnetics Research, 2018, 162: 95-108.
(25) Zongbao Li, Jianxin Yang, Meng Shi, Liu Yang, Yupeng Cheng, Xiaowen Hu, Xiaofang Jiang, Xiaobo Xing*, and Sailing He*, Upconversion luminescence of graphene oxide through hybrid waveguide, The Journal of Physical Chemistry C, 2018, 122(29): 16866–16871.
(24) Kequn Chi, Liu Yang*, and Sailing He*, Ultrathin nanostructured solar selective absorber based on a two-dimensional hemispherical shell array, Applied Physics Letters, 2018, 112(6): 063903.
2013-2017年:
(23) Mengzhu Hu, Liu Yang*, Hao Dai, Sailing He*, Broadband Absorption and Efficient Hot-Carrier Photovoltaic Conversion based on Sunlight induced Non-radiative Decay of Propagating Surface Plasmon Polaritons, Scientific Reports, 2017, 7: 4809.
(22) Liu Yang*#, Pengfei Kou#, Nan He, Hao Dai, Sailing He*, Anomalous light trapping enhancement in a two-dimensional gold nanobowl array with an amorphous silicon coating, Optics Express, 2017, 25(13): 14114-14124.
(21) Kequn Chi, Liu Yang*, Zhaolang Liu, Pingqi Gao, Jichun Ye, Sailing He*, Large-scale nanostructured low-temperature solar selective absorber, Optics Letters, 2017, 42(10): 1891-1894.
(20) Pengfei Kou, Liu Yang*, Cheng Chang, Sailing He*, Improved Flexible Transparent Conductive Electrodes based on Silver Nanowire Networks by a Simple Sunlight Illumination Approach, Scientific Reports, 2017, 7: 42052. (Top 100 in Materials Science)
(19) Liu Yang*, Lei Mo, Tuo Chen, Erik Forsberg, Sailing He, A checkerboard selective absorber with excellent spectral selectivity, Journal of Applied Physics, 2015, 118(18): 183103.
(18) Liu Yang*, Pengfei Kou, Jianqi Shen, El Hang Lee, Sailing He*, Proposal of a broadband, polarization-insensitive and high-efficiency hot-carrier Schottky photodetector integrated with a plasmonic silicon ridge waveguide, Journal of Optics, 2015.11.5, 17(12): 125010.
(17) Pengfei Kou, Liu Yang*, Kequn Chi, Sailing He*, Large-area and uniform transparent electrodes fabricated by polymethylmethacrylate-assisted spin-coating of silver nanowires on rigid and flexible substrates, Optical Materials Express, 2015, 5(10): 2347-2358.
(16) Lei Mo, Liu Yang*, El Heng Lee, and Sailing He*, High-efficiency plasmonic metamaterial selective emitter based on an optimized spherical core-shell nanostructure for planar solar thermophotovoltaics, Plasmonics 2015, 10(3): 529-538.
(15) Lei Mo, Liu Yang*, Achim Nadzeyka, Sven Bauerdick, Sailing He, Enhanced broadband absorption in gold by plasmonic tapered coaxial holes, Optics Express, 2014, 22(26): 32233~32244.
(14) Yanxia Cui, Yingran He, Yi Jin, Fei Ding, Liu Yang, Yuqian Ye, Suomin Zhong, Yinyue Lin, and Sailing He*, Plasmonic and metamaterial structures as electromagnetic absorbers, Laser & Photonics Review, 2014, 8(4): 495-520.
(13) Liu Yang, Lei Mo, Yoichi Okuno, Sailing He*, Optimal design of ultra-broadband, omnidirectional, and polarization-insensitive amorphous silicon solar cells with a core-shell nanograting structure, Progress in Photovoltaics: Research and Applications, 2013, 21(5): 1077-1086.
(12) Feng Zhang#, Liu Yang#, Yi Jin, and Sailing He*, Turn a highly-reflective metal into an omnidirectional broadband absorber by coating a purely-dielectric thin layer of grating, Progress in Electromagnetic Reseaerch, 2013, 134: 95-109.
2012年以前:
(11) Xiaolong He#, Liu Yang#, and Tian Yang, Optical nanofocusing by tapering coupled photonic-plasmonic waveguides, Optices Express, 2011, 19(14): 12865-12872.
(10) Bo Yang, Yunpeng Zhu, Yuqing Jiao, Liu Yang, Zhen Sheng, Sailing He, Daoxin Dai*, Compact arrayed waveguide grating devices based on small SU-8 strip waveguides, Journal of Lightwave Technology, 2011, 29(13): 2009-2014.
(9) Zhen Sheng, Bo Yang, Liu Yang, Jing Hu, Daoxin Dai*, and Sailing He, Experimental demonstration of deeply-etched SiO2 ridge optical waveguides and devices, IEEE Journal of Quantum Electronics, 2010, 46(1): 28-34.
(8) Liu Yang, Daoxin Dai*, Jian-Jun He, and Sailing He, Observation of the thermal nonlinear optical effect in a microring resonator based on a small SU-8 polymer ridge optical waveguide, Proceedings of SPIE, 2009, 7631: 76310B.
(7) Liu Yang, Daoxin Dai*, Bo Yang, Zhen Sheng, and Sailing He, Characteristic analysis of tapered lens fibers for light focusing and butt-coupling to a silicon rib waveguide, Applied Optics, 2009, 48(4): 672-678.
(6) Daoxin Dai*, Liu Yang, Zhen Sheng, Bo Yang, and Sailing He, Compact microring resonator with 2×2 tapered multimode interference, Journal of Lightwave Technology, 2009, 27(21): 4878-4883.
(5) Bo Yang, Liu Yang, Rui Hu, Zhen Sheng, Daoxin Dai*, Qingkun Liu, and Sailing He, Fabrication and characterization of small optical ridge waveguides based on SU-8 polymer, Journal of Lightwave Technology, 2009, 27(18): 4091-4096.
(4) Daoxin Dai*, Bo Yang, Liu Yang, Zhen Sheng, and Sailing He, Compact microracetrack resonator devices based on small SU-8 polymer strip waveguides, IEEE Photonics Technology Letters, 2009, 21(1-4): 254-256.
(3) Liu Yang, Bo Yang, Zhen Sheng, Jianwei Wang, Daoxin Dai*, and Sailing He, Compact 2×2 tapered multimode interference couplers based on SU-8 polymer rectangular waveguides, Applied Physics Letters, 2008, 93(20): 203304.
(2) Daoxin Dai*, Liu Yang, and Sailing He, Ultrasmall thermally tunable microring resonator with a submicrometer heater on Si nanowires, Journal of Lightwave Technology, 2008, 26(5-8): 704-709.
(1) Liu Yang, Daoxin Dai*, and Sailing He, Thermal analysis for a photonic Si ridge wire with a submicron metal heater, Optics Communications, 2008, 281(9): 2467-2471.
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