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Journal Publications:

1.      T. Zhan, J. Zou, J. Xiong, X. Liu, H. Chen, J. Yang, S. Liu, Y. Dong, and S. T. Wu, “Practical chromatic aberration correction in virtual reality displays enabled by large-size ultra-broadband liquid crystal polymer lenses,” Adv. Opt. Mater. 8(2), 1901360 (2020).

2.      K. Yin, Z. He, and S. T. Wu, “Reflective polarization volume lens with small f-number and large diffraction angle,” Adv. Opt. Mater. 8, 2000170 (2020).

3.      J. Zou, T. Zhan, J. Xiong, and S. T. Wu, “Broadband wide-view Pancharatnam–Berry phase deflector,” Opt. Express 28(4), 4921-4927 (2020).

4.      Y. Li, T. Zhan, and S. T. Wu, “Flat cholesteric liquid crystal polymeric lens with low f-number,” Opt. Express 28(4), 5875-5882 (2020).

5.      T. Zhan, J. Xiong, G. Tan, and S. T. Wu, “Absorption-based polarization gratings,” Opt. Express 28(9), 13907-13912 (2020).

6.      Z. He, K. Yin, and S. T. Wu, “Passive polymer-dispersed liquid crystal enabled multi-focal plane displays,” Opt. Express 28(10), 15294-15299 (2020).

7.      L. Wu, F. Gou, S. T. Wu, and Y. Wang, “SLEEPIR: Synchronized Low-Energy Electronically-Chopped PIR Sensor for True Presence Detection,” IEEE Sensors Lett. 4(3), 2500204 (2020).

8.      Z. He, K. Yin, E.L. Hsiang and S.T. Wu, “Volumetric light-shaping polymer-dispersed liquid crystal films for mini-LED backlights,” Liq. Cryst. 47(10), 1458-1463 (2020).

9.      (Distinguished student paper) J. Jou, T. Zhan, J. Xiong, and S. T. Wu, “Increasing the pixel density for VR displays with a polarization grating,” J. Soc. Inf. Disp. 28, 315-323 (2020).

10.   (Distinguished student paper) K. Yin, H. Y. Lin, and S. T. Wu, “Chirped polarization volume grating for wide FOV and high efficiency waveguide-based AR displays,” J. Soc. Inf. Disp. 28, 368-374 (2020).

11.   (Distinguished student paper) J. Xiong, G. Tan, T. Zhan, and S. T. Wu, “Wide-view augmented reality display with diffractive cholesteric liquid crystal lens array,” J. Soc. Inf. Disp. 28, 450-456 (2020).

12.   (Distinguished student paper) Z. He, K. Yin, E. L. Xiang, and S. T. Wu, “Birefringent light-shaping films for mini-LED backlights,” J. Soc. Inf. Disp. 28, 476-482 (2020).

13.   (Review paper) T. Zhan, J. Xiong, J. Zou, and S. T. Wu, “Multifocal displays: review and prospect,” PhotoniX 1, 10 (2020). 

14.   J. He, Z. He, S. T. Wu, and Y. Dong, “Ligand Assisted Swelling-Deswelling Microencapsulation (LASDM) for Stable, Color Tunable Perovskite-Polymer Composites,” Nanoscale Advances 2, 2034-2043 (2020).

15.   Z. He, G. Tan, Y.F. Lan, and S.T. Wu, “Design and Simulation of Low Circadian Action Micro-LED displays with Four Primary Colors  Crystals 10, 383 (2020).

16.   E. L. Hsiang, Z. He, Y. Huang, F. Gou, Y. F. Lan, and S.T. Wu, “Improving the power efficiency of micro-LED displays with optimized LED chip sizes,” Crystals 10, 494 (2020). 

17.   D. Franklin, Z. He, P. M. Ortega, A. Safaei, P. Cencillo-Abad, S. T. Wu, and D. Chanda, “Self-assembled plasmonics for angle-independent structural color displays with actively addressed black states,” PNAS 117(24), 13350-13358 (2020).

18.   (Review paper) Y. Huang, E. L. Hsiang, M.Y. Deng, and S.T. Wu, “Mini-LED, Micro-LED and OLED displays: Present status and future perspectives,” Light: Sci. & Appl. 9, 105 (2020). https://www.nature.com/articles/s41377-020-0341-9

19.   (Review paper) K. Yin, T. Zhan, J. Xiong, Z. He, and S.T. Wu, “Polarization Volume Gratings for Near-eye Displays and Novel Photonic Devices,” Crystals 10, 561 (2020). 

20.   Z. He, K. Yin, and S. T. Wu, “Standing wave polarization holography for realizing liquid crystal Pancharatnum-Berry phase lenses Opt. Express 28(15), 21729-21736 (2020).

21.   C. Yoo, J. Xiong, S. Moon, D. Yoo, C-K. Lee, S. T. Wu, and B. Lee, “Foveated display system based on a doublet geometric phase lens Opt. Express 28(16), 23690-23702 (2020).

22.   J. Zou, E. L. Hsiang, T. Zhan, K. Yin, Z. He, and S. T. Wu, “High Dynamic Range Head-up Display,” Opt. Express 28(16), 24298-24307 (2020).

23.   (Perspective paper) T. Zhan, K. Yin, J. Xiong, Z. He, and S. T. Wu, “Augmented reality and virtual reality: perspectives and challenges,” iScience 23, 101397 (2020).

24.   Z. He, J. He, C. Zhang, S. T. Wu, and Y. Dong, “Swelling-Deswelling Microencapsulation-Enabled Ultrastable Perovskite-Polymer Composites for Photonic Applications,” Chem. Rec. 20, 672-681 (2020).

25.   Q. Yang, J. Zou, Y. Li, and S.T. Wu, “Fast-Response Liquid Crystal Phase Modulators with an Excellent Photostability,” Crystals 10, 765 (2020).

26.  J. Xiong, G. Tan, T. Zhan, and S. T. Wu, “Breaking the field-of-view limit in augmented reality with a scanning waveguide display,” OSA Continuum 3(10), 2730-2740 (2020).

27.  Z. Yang, T. Zhan, and S. T. Wu, “Polarization independent guided-mode resonance in liquid crystal-based polarization gratings,” OSA Continuum 3(11), 3107-3115 (2020). (Editor’s pick)

28.  J. Xiong and S. T. Wu, “Rigorous coupled-wave analysis of liquid crystal polarization gratings,” Opt. Express 28(24), 35960-35971 (2020).

29.  E. L. Hsiang, Q. Yang, Z. He, J. Zou, and S. T. Wu, “Halo effect in high-dynamic-range mini-LED backlit LCDs,” Opt. Express 28(24), 36822-36837 (2020).

30.  Y. Li, Z. Yang, R. Chen, L. Mo, J. Li, M. Hu, and S. T. Wu, “Submillisecond-response polymer network liquid crystal phase modulators,” Polymers 12, 2862 (2020).

31.  E. L. Hsiang, Y. Li, Z. He, T. Zhan, C. Zhang, Y. Dong, and S. T. Wu, “Enhancing the efficiency of color conversion micro-LED display with a patterned cholesteric liquid crystal polymer film,” Nanomaterials 10, 2430 (2020).

32.  T. Lin, T. Zhan, J. Zou, F. Fan, and S. T. Wu, “Maxwellian near-eye display with an expanded eyebox,” Opt. Express 28(26), 38616-38625 (2020).

33.  (Mini review) K. Yin, J. Xiong, Z. He, and S. T. Wu, “Patterning Liquid Crystal Alignment for Ultra-Thin Flat Optics,” ACS Omega 5, 31485-31489 (2020). DOI: 10.1021/acsomega.0c05087

Conference Papers:

1.      Z. He, C. Zhang, Y. Dong, and S. T. Wu, “Tailoring the Spectrum: Low-cost Perovskite-polymer composites,” Information Display 36(1), 10-15 (2020).

2.      T. Zhan, “Planar optics enables chromatic aberration correction in immersive near-eye displays,” Proc. SPIE 11310, 1131003 (2020).

3.      (Invited paper) T. Zhan, J. Zou, M. Lu, E. Chen, and ST Wu, Wavelength-multiplexed multifocal displays, Proc. SPIE, Advances in Display Technologies X 11304, 1130408 (2020).

4.      (Invited paper) F. Gou, E.L. Hsiang, G. Tan, P.T. Chou, Y.L. Li, Y.F. Lan, and S.T. Wu, High-efficiency micro-LED displays with indistinguishable color shift, Proc. SPIE, Advances in Display Technologies X 11304, 113040I (2020)

5.      (Invited Paper) E.L. Hsiang, Y. Huang, Q. Yang, and S. T. Wu, “High Dynamic Range Mini-LED and Dual-Cell LCDs,” SID Symp. Digest 51, 115-118 (2020).

6.      E.L. Hsiang, M.Y. Deng, Y. Huang, F. Gou, Z. He, C.L. Lin, and S. T. Wu, “Power Consumption of OLED and ΅LED Displays,” SID Symp. Digest 51, 528-531 (2020).

7.      (Invited Paper) T. Zhan, J. Xiong, G. Tan, and S.T. Wu, “Fast-Switching Liquid Crystal Devices for Near-Eye and Head-Up Displays SID Symp. Digest 51, 567-570 (2020).

8.      T. Zhan, J. Xiong, X. Liu, H. Chen, S. Liu, Y. Dong, and S.T. Wu, “Cost-Efficient Polymer Flat Lens for Chromatic Aberration Correction in Virtual Reality Displays,” SID Symp. Digest 51, 579-582 (2020).

9.      Y. Li, Y. Huang, H. Ooishi, K. Yoshidaya, and S. T. Wu, “Fast-response Liquid Crystals for AR and Head-Up Displays,” SID Symp. Digest 51, 765-768 (2020). 

10.   F. Gou, G. Tan, Y. F. Lan, S. L. Lee, and S. T. Wu, “Ambient Light Excitation in Quantum-Dot-Converted MicroLED Displays,” SID Symp. Digest 51, 1174-1177 (2020). 

11.   C. Zhang, Z. He, C. Gao, S.T. Wu, and Y. Dong, “Ultra-Stable Deep-Dyed Perovskite-Polymer Composites as Tunable Downconverters,” SID Symp. Digest 51, 1303-1306 (2020). 

12.   M. A. Triana, S. T. Wu, and Y. Dong, “Bright, Large-Pixel, Flexible Quantum-Dot Light-Emitting Diodes for Photomedicine,” SID Symp. Digest 51, 1748-1751 (2020).

 

Patents:

1.    Y. Dong, H. Chen, S. T. Wu, and J. He, “Quantum dot light emitting devices and method of manufacture,” US Patent 10,593,902 (March 17, 2020).