J
Jianying Zhou
Researcher at Sun Yat-sen University
Publications - 190
Citations - 3769
Jianying Zhou is an academic researcher from Sun Yat-sen University. The author has contributed to research in topics: Backlight & Ultrashort pulse. The author has an hindex of 28, co-authored 173 publications receiving 3162 citations. Previous affiliations of Jianying Zhou include Max Planck Society.
Papers
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Deterministic quasi-random nanostructures for photon control
Emiliano R. Martins,Juntao Li,Yikun Liu,Valerie Depauw,Zhanxu Chen,Jianying Zhou,Thomas F. Krauss,Thomas F. Krauss +7 more
TL;DR: A novel approach for designing richer Fourier spectra is introduced, by using a periodic structure that allows us to control its Fourier components almost at will, and it is shown how these structures can be employed to achieve highly efficient broad-band light trapping in thin films that approach the theoretical limit.
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Bis(2,2′-bipyridine)ruthenium(II)complexes withimidazo[4,5-f ][1,10]-phenanthroline or2-phenylimidazo[4,5-f ][1,10]phenanthroline
TL;DR: In this article, a planar bidentate ligand and two twisted bipy ligands with torsional angles between each bipyridine were used to construct the complex.
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Interaction of polypyridyl ruthenium(II) complexes containing non-planar ligands with DNA
Ya Xiong,Xiao-feng He,Xiao-Hua Zou,Jian-Zhong Wu,Xiao-Ming Chen,Liang-Nian Ji,Run-Hua Li,Jianying Zhou,Kai-Bei Yu +8 more
TL;DR: In this article, the binding properties of the two complexes to calf thymus DNA has been investigated with spectrophotometric methods and viscosity measurements, and the experimental results indicate that the complexes bind to DNA through a partial intercalative mode that is different from the bonding mode for their parent compound, [Ru(bpy)2(PIP)]2+ (PIP=2-phenylimidazo[4,5-f]1,10-phenanthroline).
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Ultrahigh Numerical Aperture Metalens at Visible Wavelengths
Haowen Liang,Qiaoling Lin,Xiangsheng Xie,Qian Sun,Yin Wang,Lidan Zhou,Lin Liu,Xiangyang Yu,Jianying Zhou,Thomas F. Krauss,Juntao Li +10 more
TL;DR: This work introduces and demonstrates a metalens with a high NA and high transmission in the visible range, based on crystalline silicon (c-Si), and envision the front-immersion design to be beneficial for achieving ultrahigh-NA metalenses as well as immersion metalens doublets, thereby pushing metasurfaces into practical applications such as high resolution, low-cost confocal microscopy and achromatic lenses.
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Harnessing the Point-Spread Function for High-Resolution Far-Field Optical Microscopy
TL;DR: A highly symmetric excitation optical field and optimized detection scheme are proposed to harness the total point-spread function for a microscopic system, showing that the proposed scheme provides a better image quality.