夏军个人页面

发布者:夏军发布时间:2015-07-02浏览次数:4147

姓名

夏军

性别

出生年月

19741

学位/学历

博士/研究生

职称

教授

职务


导师类别

博导

招生方向

物理电子学、光学工程

联系电话

83791911-829

电子邮箱

xiajun@seu.edu.cn

教育背景:

19929月至19967月,南京航空航天大学自控系本科生,获学士学位

19969月至19993月,东南大学电子工程系硕士研究生,获硕士学位

20009月至20044月,东南大学电子工程系博士研究生,获博士学位

工作经历:

19993月至20006月,上海中兴通讯研究一所

20044月至今,东南大学电子科学与工程学院,教授

20079月至20081月,荷兰Delft大学,访问学者

主要研究领域与成就:

主要研究方向:视频处理芯片、微显示芯片、增强现实显示全息显示、三维光场显示

发表SCI论文100多篇、申请发明专利70多项,获江苏省科技进步一等奖2项。

承担的科研项目:

主持科技部重点研发计划项目“相位型空间光调制器

主持完成科技部973课题“波前重建三维显示器件的空间带宽积扩展方法

主持完成航空基金项目“视线跟踪传感器定位技术建模

主持完成总装预研教育部支撑计划(重点项目)“三维数据获取与成像新方法”

主持完成科技部863项目“可变焦电润湿透镜真三维立体显示技术

参与完成科技部重点研发计划项目“面向大数据应用的桌面实时真三维显示技术”,项目参与单位的课题负责人

参与完成装备预研项目“虚实融合真3D显示屏”,项目参与单位的课题负责人

参与完成科技部863新材料技术领域新型显示关键技术与系统集成(一期)重大项目“高视觉感知集成成像三维显示技术的研究”,课题副组长

参与完成科技部973课题“显示器件光电特性与人对图像显示的视觉认知关联性及其器件应用的研究

参与完成科技部863项目“高度真实感的三维呈现与远程交互系统及应用”,项目参与单位的课题负责人

参与完成科技部863项目“基于LCoS的眼镜型透视融合显示系统”,项目参与单位的课题负责人

参与完成科技部973课题“平板显示器件新型显示模式及综合显示性能评价的研究


主要社会任职:

中国光学学会全息与光信息专业委员会委员

中国图像图形学会立体图像技术专业委员会委员

中国专业标准化技术委员会委员

中国物理学会液晶分会专业委员会委员

近十年发表论文:

2022年:

Chang, C., D. Wang, D. Zhu, J. Li, J. Xia and X. Zhang (2022). Deep-learning-based computer-generated hologram from a stereo image pair. Optics Letters 47(6): 1482-1485.

2 Tong, G., J. Xia, H. Zhong, S. Liu, J. Wu, W. Zhao, Z. Wu, H. Zhang, C. Dong and B. Du (2022). Generating acoustic signals of varying intensities via modulating continuous-wave lasers scanning in air. Physics of Fluids 34(1).

3 Wu, Z., B. Du, G. Tong, H. Zhang, Y. Zhang, J. Xia and Z. Zhao (2022). Highly luminescent and stable inorganic perovskite micro-nanocomposites for crucial information encryption and decryption. Chemical Engineering Journal 428.

4 Chang, C. L., et al. (2022). Review of Holographic Near-Eye Displays for Visual Comfort. Laser & Optoelectronics Progress 59(20).

5 Chang, C. L., et al. (2022). Three-dimensional computer holography enabled from a single 2D image. Optics Letters 47(9): 2202-2205.

6 Chen, Y. X. and J. Xia (2022). A high-efficiency color sequential SLM for holography display. Conference on Holography, Diffractive Optics, and Applications XII Part of SPIE/COS Photonics Asia Conference, Electr Network.

7 Chen, Y. X. and J. Xia (2022). Review on Silicon-Based Microdisplay Chips. Laser & Optoelectronics Progress 59(20).

8 Dong, C. K., et al. (2022). Ultracompact Polarization Splitter-Rotator Based on Shallowly Etched Subwavelength Gratings and Anisotropic Metasurfaces. Nanomaterials 12(19).

9 Duan, S. S., et al. (2022). A skin-beyond tactile sensor as interfaces between the prosthetics and biological systems. Nano Energy 102.

10 Tong, G. D., et al. (2022). Improved photoacoustic images via wavefront shaping modulation based on the scattering structure. Optics Express 30(20): 36489-36499.

11 Wu, Z. H., et al. (2022). Disordered metasurface-enhanced perovskite composite films with ultra-stable and wide color gamut used for backlit displays. Nano Energy 100.

12 Zhang, Y. C., et al. (2022). Infrared metasurface absorber based on silicon-based CMOS process. Optics Express 30(18): 32937-32947.


2021年:

Chang, C., D. Zhu, J. Li, D. Wang, J. Xia and X. Zhang (2021). Fast calculation of computer generated hologram based on single Fourier transform for holographic three-dimensional display. Displays 69.

2 Chen, Y. and J. Xia (2021). A compact and low power SLM system for augmented reality applications. 2021 Applied Optics and Photonics China: Micro-Optics and MOEMS, AOPC 2021, June 20, 2021 - June 22, 2021, Beijing, China, SPIE.

3 Chen, Y. and J. Xia (2021). A high contrast digital driving 0.39 inch LCoS panel optimized for waveguide AR glass. 27th International Display Workshops, IDW 2020, December 9, 2020 - December 11, 2020, Virtual, Online, International Display Workshops.

4 Du, B., Z. Wu, J. Xia, J. Wu, G. Tong and H. Zhang (2021). Large-area all-dielectric metasurface fabricated by an anodized aluminum oxide template. Optics Express 29(7): 10465-10470.

5 Duan, S., B. Wang, Y. Lin, Y. Li, D. Zhu, J. Wu, J. Xia, W. Lei and B. Wang (2021). Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive HumanMachine Interfaces. Advanced Intelligent Systems 3(9).

6 Duan, S. S., Y. C. Lin, Z. H. Wang, J. Y. Tang, Y. H. Li, D. Zhu, J. Wu, L. Tao, C. H. Choi, L. T. Sun, J. Xia, L. Wei and B. P. Wang (2021). Conductive Porous MXene for Bionic, Wearable, and Precise Gesture Motion Sensors. Research 2021.

7 Hong, J., J. Wu, Y. Mao, Q. Shi, J. Xia and W. Lei (2021). Transferred Laser-Scribed Graphene-Based Durable and Permeable Strain Sensor. Advanced Materials Interfaces 8(20).

8 Tong, G., J. Xia, C. Xia, H. Zhong, J. Wu, B. Du, H. Zhang, Z. Zhou and S. Liu (2021). Generating a single high-intensity attosecond pulse radiation via the interaction of a Gaussian vortex beam and electrons. Optik 241.

9 Zhang, H., B. T. Du, G. D. Tong and J. Xia (2021). Flexible generation of the generalized vector vortex beams. Optics Communications 493.

10 Zhao, J. and J. Xia (2021). Near-eye light field display based on polarization volume grating stack (Pvgs). International Conference on Display Technology, ICDT 2020, October 18, 2020 - October 21, 2020, Wuhan, China, John Wiley and Sons Inc.

11 Zhu, S. Q., Z. T. Xu, H. Zhang, K. Y. Yang, N. Wang, H. T. Liu, Y. T. Wang, J. Xia and L. L. Huang (2021). Liquid crystal integrated metadevice for reconfigurable hologram displays and optical encryption. Optics Express 29(6): 9553-9564.


2020年:

1 Chen, Y. and J. Xia (2020). A high resolution and accuracy phase-only spatial light modulator. Optics Frontier Online 2020: Optics Imaging and Display, June 19, 2020 - June 20, 2020, Virtual, Online, SPIE.
2 Du, B., H. Zhang, 
J. Xia, J. Wu, H. Ding and G. Tong (2020). Super-Resolution Imaging with Direct Laser Writing-Printed Microstructures. Journal of Physical Chemistry A 124(35): 7211-7216.
3 Duan, S., J. Wu, 
J. Xia and W. Lei (2020). Innovation strategy selection facilitates high-performance flexible piezoelectric sensors. Sensors (Switzerland) 20(10).
4 Wu, J., Y. Du, 
J. Xia, T. Zhang, W. Lei and B. Wang (2020). A fluid-based active plasmonic grating filter. AIP Advances 10(1).
5 Zhang, Y., J. Cui, Y. Weng and 
J. Xia (2020). A holographic waveguide display with polarization volume gratings. 57th SID International Symposium, Seminar and Exhibition, Display Week, 2020, August 3, 2020 - August 7, 2020, Virtual, Online, Blackwell Publishing Ltd.
6 Zhou, Z., 
J. Xia, J. Wu, C. Chang, X. Ye, S. Li, B. Du, H. Zhang and G. Tong (2020). Learning-based phase imaging using a low-bit-depth pattern. Photonics Research 8(10): 1624-1633.


2019年:

1 Zhao, J., Ma, Q.G., Xia, J., Wu, J., Du, B.T., and Zhang, H.: ‘Hybrid Computational Near-Eye Light Field Display’, Ieee Photonics Journal, 2019, 11, (1), pp. 10

2 Wu, J., Xia, J., and Lei, W.: ‘Investigation on the wetting issues in solution processed quantum dot light-emitting diodes with inverted tandem structure’, Organic Electronics, 2019, 67, pp. 116-121

3 Wu, J., Tang, X.Q., and Xia, J.: ‘Simultaneous Generation of Multiple Three-Dimensional Tractor Curve Beams’, Nanoscale Res. Lett., 2019, 14, pp. 8

4 Wu, J., Tang, X.Q., and Xia, J.: ‘Simultaneous Generation of Complex Structured Curve Beam’, Nanomaterials, 2019, 9, (1), pp. 8

5 Wu, J., Du, Y.Q., Xia, J., Zhang, T., Lei, W., and Wang, B.P.: ‘Dynamically Tunable Light Absorbers as Color Filters Based on Electrowetting Technology’, Nanomaterials, 2019, 9, (1), pp. 9

6 Ma, Q.G., Zhao, J., Zhang, S.D., Yuan, L., Xia, J., and Wu, J.: ‘Tilted LCD Pixel With Liquid Crystal GRIN Lens for Two-Dimensional/Three-Dimensional Switchable Display’, Ieee Photonics Journal, 2019, 11, (4), pp. 9

7 Du, B.T., Xia, J., Wu, J., Zhao, J., and Zhang, H.: ‘Switchable Photonic Nanojet by Electro-Switching Nematic Liquid Crystals’, Nanomaterials, 2019, 9, (1), pp. 11

8 Chang, C., Qi, Y., Xia, J., Yuan, C., and Nie, S.: ‘Numerical study of color holographic display from single computer-generated cylindrical hologram by radial-division method’, Optics Communications, 2019, 431, pp. 101-108

9 Zhao, J., J. Xia, Q. Ma and J. Wu (2019). Spatial loss factor for the analysis of accommodation depth cue on near-eye light field displays. Optics Express 27(24): 34582-34592.

10 Zhang, Z. C., J. Dang, L. Wu, H. B. Wang, J. Xia, W. Lei, J. Z. Wang and X. H. You (2019). Optical Mobile Communications: Principles, Implementation, and Performance Analysis. Ieee Transactions on Vehicular Technology 68(1): 471-482.

11 Liu, A., Y. Zhang, Z. Shen, Y. Weng, J. Xia and B. Wang (2019). High refractive index photopolymer fabricated holographic grating used for RGB waveguide-type display. SID Symposium, Seminar, and Exhibition 2019, Display Week 2019, May 12, 2019 - May 17, 2019, San Jose, CA, United states, Blackwell Publishing Ltd.

12 Liu, L., T. Zhang and J. Xia (2019). Slim holographic retina display based on holographic waveguide. 26th International Display Workshops, IDW 2019, November 27, 2019 - November 29, 2019, Sapporo, Japan, International Display Workshops.

13 Wu, J., Y. Q. Du, J. Xia, W. Lei, T. Zhang and B. P. Wang (2019). Optofluidic system based on electrowetting technology for dynamically tunable spectrum absorber. Optics Express 27(3): 2521-2529.

14 Zhang, T., L. Liu and J. Xia (2019). A fast hologram calculation method based on the light field rendering. 26th International Display Workshops, IDW 2019, November 27, 2019 - November 29, 2019, Sapporo, Japan, International Display Workshops.


2018年:
1 Zhao, J., and Xia, J.: ‘Virtual viewpoints reconstruction via Fourier slice transformation’, Journal of the Society for Information Display, 2018, 26, (8), pp. 463-469

2 Zhang, Z., Dang, J., Wu, L., Wang, H., Xia, J., Lei, W., Wang, J., and You, X.: ‘Optical Mobile Communications: Principles, Implementation and Performance Analysis’, IEEE Transactions on Vehicular Technology, 2018, pp. 1-1

3 Zhang, H., Yao, L., Pang, Y.Y., and Xia, J.: ‘Flexible and high-efficiency generation of arbitrary vector vortex beams on hybrid-order Poincare sphere’, Chinese Optics Letters, 2018, 16, (9), pp. 5

4 Xu, L., Chang, C., Feng, S., Yuan, C., Xia, J., You, J., and Nie, S.: ‘Stereoscopic hologram calculation based on nonuniform sampled wavefront recording plane’, Optics Communications, 2018, 426, pp. 194-200

5 Wu, J., Zhang, X.B., Xia, J., Lei, W., and Wang, B.P.: ‘Investigation on the wetting issues in solution processed inverted quantum-dot light-emitting diodes’, Organic Electronics, 2018, 62, pp. 434-440

6 Wu, J., Deng, Y., Zhang, X., Xia, J., and Lei, W.: ‘Influence of interfacial wetting ability on hole injection efficiency of PEDOT: PSS for solution processed normal quantum-dot light-emitting diodes’, Organic Electronics, 2018, 58, pp. 191-196

7 Lu, J., Yu, S., Xia, J., Qiao, X., and Tang, Y.: ‘Experimental study on the hysteretic behavior of steel plate shear wall with unequal length slits’, Journal of Constructional Steel Research, 2018, 147, pp. 477-487

8 Chang, C.L., Qi, Y.J., Wu, J., Xia, J., and Nie, S.P.: ‘Image magnified lensless holographic projection by convergent spherical beam illumination’, Chinese Optics Letters, 2018, 16, (10), pp. 6

9 Pang, Y., J. Xia and C. Chang (2018). Suppressing the speckle noise of complex modulation for holographic near-eye display. 25th International Display Workshops, IDW 2018, December 12, 2018 - December 14, 2018, Nagoya, Japan, International Display Workshops.

10 Zhang, T., Y. Pang and J. Xia (2018). 3D holographic display with controllable depth of field based on complex amplitude modulation. 25th International Display Workshops, IDW 2018, December 12, 2018 - December 14, 2018, Nagoya, Japan, International Display Workshops.


2017年:
1 Zhai, Y.S., Wang, Q.L., Qi, Z.Y., Li, C., Xia, J., and Li, X.H.: ‘Experimental investigation of energy transfer between CdSe/ZnS quantum dots and different-sized gold nanoparticles’, Physica E-Low-Dimensional Systems & Nanostructures, 2017, 88, pp. 109-114

2 Wu, J., Zhu, Q.Y., Qi, Z.Y., Xia, J., Chang, C.L., Wang, Q.L., and Wang, B.P.: ‘A Modeling Investigation on High-Speed Broad Spectrum Filtering System Based on Electric Fluid Technology’, Ieee Photonics Journal, 2017, 9, (3)

3 Qi, Y., Chang, C., and Xia, J.: ‘Accurate complex modulation by the iterative spatial cross-modulation method’, Chinese Optics Letters, 2017, 15, (2)

4 Chang, C.L., Qi, Y.J., Wu, J., Yuan, C.J., Nie, S.P., and Xia, J.: ‘Numerical study for the calculation of computer-generated hologram in color holographic 3D projection enabled by modified wavefront recording plane method’, Optics Communications, 2017, 387, pp. 267-274

5 Chang, C.L., Qi, Y.J., Wu, J., Xia, J., and Nie, S.P.: ‘Speckle reduced lensless holographic projection from phase-only computer-generated hologram’, Optics Express, 2017, 25, (6), pp. 6568-6580


2016年:

1 Zhang, H., Chang, C.L., and Xia, J.: ‘Detection optical vortex topological charges with monocyclic multistage intensity distribution’, Acta Physica Sinica, 2016, 65, (6)

2 Xia, X.Y., and Xia, J.: ‘Phase-only stereoscopic hologram calculation based on Gerchberg-Saxton iterative algorithm’, Chinese  Physics B, 2016, 25, (9)

3 Qi, Z.Y., Wang, Q.L., Zhai, Y.S., Xu, J., Tao, Z., Tu, Y., Lei, W., and Xia, J.: ‘Plasmon-enhanced energy transfer between quantum dots and tunable film-coupled nanoparticles’, Journal of Physics D-Applied Physics, 2016, 49, (23)

4 Qi, Y.J., Chang, C.L., and Xia, J.: ‘Speckleless holographic display by complex modulation based on double-phase method’, Optics Express, 2016, 24, (26), pp. 30368-30378

5 Qi, Y., Xia, J., and Chang, C.: ‘Single lens complex modulation by iterative spatial cross modulation method’, in Editor (Ed.)^(Eds.): ‘Book Single lens complex modulation by iterative spatial cross modulation method’ (Society for Information Display, 2016, edn.), pp. 1794-1797

6 Chang, C.L., Xia, J., Qi, Y.J., Yuan, C.J., and Nie, S.P.: ‘Speckle-reduced holographic display by modulating complex amplitude in single-lens system’, Optical Engineering, 2016, 55, (6)

7 Chang, C.L., Wu, J., Qi, Y.J., Yuan, C.J., Nie, S.P., and Xia, J.: ‘Simple calculation of a computer-generated hologram for lensless holographic 3D projection using a nonuniform sampled wavefront recording plane’, Applied Optics, 2016, 55, (28), pp. 7988-7996


2015年:
1 Zhao, J., Xia, J., Chen, C., Yang, Z., and Chen, J.: ‘Fast calculation of stereoscopic viewpoints via Fourier slice transformation’, in Editor (Ed.)^(Eds.): ‘Book Fast calculation of stereoscopic viewpoints via Fourier slice transformation’ (International Display Workshops, 2015, edn.), pp. 1127-1130

2 Zhai, Y., Wang, Q., Li, X., Chen, X., Huang, Q., and Xia, J.: ‘Study on the transmission properties of sub-wavelength metallic tapered gratings with different-shaped walls’, Journal of Optics (India), 2015, 44, (1), pp. 20-25

3 Yang, L., Xia, J., and Zhang, X.B.: ‘Optimization of Fringing Field Effect Using Dielectric Separation and Local Electric Field Enhancement’, Journal of Display Technology, 2015, 11, (3), pp. 242-247

4 Yang, L., Xia, J., Chang, C.L., Zhang, X.B., Yang, Z.M., and Chen, J.H.: ‘Nonlinear dynamic phase response calibration by digital holographic microscopy’, Applied Optics, 2015, 54, (25), pp. 7799-7806

5 Xia, J., Chang, C.-L., and Lei, W.: ‘Holographic display based on liquid crystal spatial light modulator’, Wuli Xuebao/Acta Physica Sinica, 2015, 64, (12)

6 Chang, C.L., Xia, J., Yang, L., Lei, W., Yang, Z.M., and Chen, J.H.: ‘Speckle-suppressed phase-only holographic three-dimensional display based on double-constraint Gerchberg-Saxton algorithm’, Applied Optics, 2015, 54, (23), pp. 6994-7001

7 Chang, C.L., Xia, J., and Lei, W.: ‘Colorful holographic display of 3D object based on scaled diffraction by using nonuniform fast Fourier transform’, in Editor (Ed.)^(Eds.): ‘Book Colorful holographic display of 3D object based on scaled diffraction by using nonuniform fast Fourier transform’ (2015, edn.), pp. 

8 Chang, C., Xia, J., Li, Q., and Lei, W.: ‘Speckle suppression in scaled holographic display from single phase-only computer generated hologram’, in Editor (Ed.)^(Eds.): ‘Book Speckle suppression in scaled holographic display from single phase-only computer generated hologram’ (Blackwell Publishing Ltd, 2015, Book 1 edn.), pp. 526-529

9 Chang, C., Xia, J., and Lei, W.: ‘Speckle suppression in phase-only holographic display by optimizing phase distribution’, in Editor (Ed.)^(Eds.): ‘Book Speckle suppression in phase-only holographic display by optimizing phase distribution’ (Optical Society of America (OSA), 2015, edn.), pp. 410p


2014年:
1 Zhong, Q., Chen, B., Li, H., Liu, X., Xia, J., Wang, B., and Xu, H.: ‘Multi-projector-type immersive light f ield display’, Chinese Optics Letters, 2014, 12, (6)

2 Zhai, Y.S., Wang, Q.L., Li, X.H., Chen, X.Q., Huang, Q.Q., Zhao, J., Liu, J., and Xia, J.: ‘Broadband extraordinary optical transmission of sub-wavelength metallic grating with parabolic wall’, Journal of Modern Optics, 2014, 61, (6), pp. 530-535

3 Yang, L., Xia, J., Zhang, X.B., Xie, Y., Kang, M.W., and Zhang, Q.Z.: ‘Fringing field suppression for liquid crystal gratings using equivalent capacitance configuration’, Japanese Journal of Applied Physics, 2014, 53, (10)

4 Yang, L., Xia, J., Zhang, X., Xie, Y., Kang, M., and Zhang, Q.: ‘Three-dimensional display by holographic imaging on multiple focal planes’, Zhongguo Jiguang/Chinese Journal of Lasers, 2014, 41, (2)

5 Xia, J., Yun, R., Yu, K., Yin, F., Wang, H., and Bu, Z.: ‘A coordinated mechanism for multimode user equipment accessing wireless sensor network’, International Journal of Grid and Utility Computing, 2014, 5, (1), pp. 1-10

6 Xia, J., and Wu, J.: ‘A Slip Enhanced Superhydrophobic Surface Based on Reticulated ZnO Nanostructure’, Materials Transactions, 2014, 55, (1), pp. 194-197

7 Wu, J., Yang, L., Xia, J., Lei, W., and Wang, B.: ‘Advancing behavior of fluids over patterned hydrophobic surface for electrowetting displays’, in Editor (Ed.)^(Eds.): ‘Book Advancing behavior of fluids over patterned hydrophobic surface for electrowetting displays’ (Blackwell Publishing Ltd, 2014, BOOK 3 edn.), pp. 1325-1327

8 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘Pinning mechanism of advancing sessile droplet on superhydrophobic surfaces’, RSC Adv., 2014, 4, (67), pp. 35649-35652

9 Wu, J., Xia, J., Chen, J., Lei, W., Wang, B.-P., Zhang, Y.-F., and Engelsena, D.D.: ‘Influence of ZnO surface morphology on wettability transition under UV irradiation’, Nanoscience and Nanotechnology Letters, 2014, 6, (11), pp. 1005-1009

10 Wang, Q.L., Cui, Y.K., Di, Y.S., Li, C., Chen, X.Q., Zhang, X.B., Lei, W., and Xia, J.: ‘Very large cathode current and long term stability of vacuum sealed tubes with engrafted-carbon-nanotube emitters’, Diamond and Related Materials, 2014, 47, pp. 40-45

11 Su, C., Xia, X.X., Li, H.F., Liu, X., Kuang, C.F., Xia, J., and Wang, B.P.: ‘A penetrable interactive 3D display based on motion recognition’, Chinese Optics Letters, 2014, 12, (6)

12 Qasim, K., Chen, J., Xu, F., Wu, J., Li, Z., Lei, W., Cui, Y.P., and Xia, J.: ‘Large-Area Quantum-Dot Light Emitting Diode Arrays with ZnO Nanoparticles as Electron Transport/Injection Layer’, Science of Advanced Materials, 2014, 6, (12), pp. 2625-2631

13 Qasim, K., Chen, J., Lei, W., Li, Z., Pan, J., Li, Q., Xia, J., and Tu, Y.: ‘Influence of layer thickness on the performance of quantum dots light emitting devices’, in Editor (Ed.)^(Eds.): ‘Book Influence of layer thickness on the performance of quantum dots light emitting devices’ (Blackwell Publishing Ltd, 2014, BOOK 1 edn.), pp. 63-66

14 Li, Z., Qasim, K., Chen, J., Lei, W., Pan, J., Li, Q., Xia, J., and Tu, Y.: ‘All-inorganic quantum-dot light-emitting devices prepared by solution-process route’, in Editor (Ed.)^(Eds.): ‘Book All-inorganic quantum-dot light-emitting devices prepared by solution-process route’ (Blackwell Publishing Ltd, 2014, BOOK 3 edn.), pp. 1315-1318

15 Li, Q., Li, D., Yan, J., and Xia, J.: ‘Research on adaptive modal LC lens with central electrode structure and ITO high resistance layer’, in Editor (Ed.)^(Eds.): ‘Book Research on adaptive modal LC lens with central electrode structure and ITO high resistance layer’ (Blackwell Publishing Ltd, 2014, BOOK 3 edn.), pp. 1370-1373

16 Lei, Y., Jun, X., Xiaobing, Z., Yi, X., Mingwu, K., and Qiuzhi, Z.: ‘Three-Dimensional Display by Holographic Imaging on Multiple Focal Planes’, Chinese Journal of Lasers, 2014, 41, (2), pp. 0209017

17 Cui, Y.K., Chen, J., Zhao, D.W., Zhang, X.B., Lei, W., Di, Y.S., Xu, F., Sun, J., Xia, J., Li, Q., and Wang, Q.L.: ‘Stable field emission lamps based on well-aligned BaO nanowires’, RSC Adv., 2014, 4, (42), pp. 22246-22250

18 Chen, J., Pan, J., Qingguo, D., Lei, W., Li, Q., Xia, J., and Tu, Y.: ‘Flexible Ag electrode for quantum dot light-emitting diode’, Applied Physics A: Materials Science and Processing, 2014, 117, (2), pp. 593-596

19 Chen, J., Pan, J., Qingguo, D., Alagappan, G., Lei, W., Li, Q., and Xia, J.: ‘Highly efficient white quantum dot light-emitting diode based on ZnO quantum dot’, Applied Physics A: Materials Science and Processing, 2014, 117, (2), pp. 589-591

20 Chen, J., Lei, W., Li, Z., Pan, J., Li, Q., Xia, J., and Tu, Y.: ‘All solution processable of color tunable quantum dot light-emitting diodes’, in Editor (Ed.)^(Eds.): ‘Book All solution processable of color tunable quantum dot light-emitting diodes’ (Blackwell Publishing Ltd, 2014, BOOK 3 edn.), pp. 1312-1314

21 Chang, C.L., Xia, J., Wu, J., Lei, W., Xie, Y., Kang, M.W., and Zhang, Q.Z.: ‘Scaled diffraction calculation between tilted planes using nonuniform fast Fourier transform’, Optics Express, 2014, 22, (14), pp. 17331-17340

22 Chang, C.L., Xia, J., and Lei, W.: ‘One step hologram calculation for multi-plane objects based on nonuniform sampling’, Chinese Optics Letters, 2014, 12, (6)

23 Chang, C.L., Xia, J., and Jiang, Y.Q.: ‘Holographic Image Projection on Tilted Planes by Phase-Only Computer Generated Hologram Using Fractional Fourier Transformation’, Journal of Display Technology, 2014, 10, (2), pp. 107-113

24 Chang, C., Xia, J., Li, Q., and Lei, W.: ‘Colorful holographic display using variable spatial sampling rate’, in Editor (Ed.)^(Eds.): ‘Book Colorful holographic display using variable spatial sampling rate’ (Blackwell Publishing Ltd, 2014, BOOK 2 edn.), pp. 652-655


2013年:
1 Yang, L., Xia, J., Zhang, X., and Wang, B.: ‘Reducing the fringing field effect of phase-only spatial light modulator for holographic display’, in Editor (Ed.)^(Eds.): ‘Book Reducing the fringing field effect of phase-only spatial light modulator for holographic display’ (International Display Workshops, 2013, edn.), pp. 1225-1228

2 Yan, J., Li, Q., and Xia, J.: ‘Research on the fringing electric field effect of liquid crystal phase modulator for digital holography’, Digest of Technical Papers - SID International Symposium, 2013, 44, (1), pp. 663-666

3 Wu, J., Yang, X., Lei, W., Xia, J., and Wang, B.: ‘Superhydrophobic zinc oxide film: Effect of hybrid nanostructure on hydrophobicity and wetting stability’, Micro and Nano Letters, 2013, 8, (6), pp. 271-273

4 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘Generation of the smallest coffee-ring structures by solute crystallization reaction on a hydrophobic surface’, RSC Adv., 2013, 3, (16), pp. 5328-5331

5 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘Advanced understanding of stickiness on superhydrophobic surfaces’, Sci Rep-Uk, 2013, 3

6 Wu, J., Chen, J., Xia, J., Lei, W., and Wang, B.P.: ‘A Brief Review on Bioinspired ZnO Superhydrophobic Surfaces: Theory, Synthesis, and Applications’, Advances in Materials Science and Engineering, 2013

7 Wen, C.Y., Ren, J., Xia, J., and Gu, T.: ‘Self-Assembly Oil-Water Perfusion in Electrowetting Displays’, Journal of Display Technology, 2013, 9, (2), pp. 122-127

8 Qingrong, L., and Jun, X.: ‘Method for Eliminating Crosstalk Based on Image Processing’, Chinese Journal of Liquid Crystals and Displays, 2013, 28, (3), pp. 413-416

9 Li, Q.-R., and Xia, J.: ‘The asymmetric crosstalk of stereoscopic display’, Jilin Daxue Xuebao (Gongxueban)/Journal of Jilin University (Engineering and Technology Edition), 2013, 43, (SUPPL.1), pp. 326-329

10 Li, C., Xia, J., Wang, Q.L., Chen, J., Lei, W., and Zhang, X.B.: ‘Photovoltaic Property of a Vertically Aligned Carbon Nanotube Hexagonal Network Assembled with CdS Quantum Dots’, Acs Applied Materials & Interfaces, 2013, 5, (15), pp. 7400-7404

11 Li, C., Chen, J., Lei, W., Xia, J., and Wang, Q.: ‘Stable zinc oxide field emitter-based backlight unit for liquid crystal display’, Journal of Southeast University (English Edition), 2013, 29, (3), pp. 247-251 


2012年:
1 Wu, J., Xia, J., Chen, J., Lei, W., and Wang, B.P.: ‘Wetting transition on micro/nanostructured ZnO layers’, Journal of Adhesion Science and Technology, 2012, 26, (12-17), pp. 2099-2104

2 Wu, J., Chen, J., Qasim, K., Xia, J., Lei, W., and Wang, B.P.: ‘A hierarchical mesh film with superhydrophobic and superoleophilic properties for oil and water separation’, Journal of Chemical Technology and Biotechnology, 2012, 87, (3), pp. 427-430

3 Chang, C., Xia, J., and Lei, W.: ‘Holographic image projection using fractional Fourier transformation’, Optics Communications, 2012, 285, (1), pp. 24-28


2011年:

1 Zhou, X.C., Xia, J., Miao, C.F., and Li, Q.R.: ‘Characterization the Viewing Angle of Integral Imaging’ (2011. 2011)

2 Yang, L., Xia, J., Zhang, X.B., Lei, W., and Wang, B.P.: ‘A double-slits interference method for phase modulation measurement in holographic display’ (2011. 2011)

3 Xia, J., Zhu, W., and Heynderickx, I.: ‘41.1: Three-dimensional electro-holographic retinal display’, in Editor (Ed.)^(Eds.): ‘Book 41.1: Three-dimensional electro-holographic retinal display’ (Society for Information Display, 2011, edn.), pp. 591-594

4 Xia, J., Zhu, W., and Heynderickx, I.: ‘Three-dimensional electro-holographic retinal display’, in Editor (Ed.)^(Eds.): ‘Book Three-dimensional electro-holographic retinal display’ (Society for Information Display, 2011, edn.), pp. 591-594

5 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘Facile Synthesis of Three-Dimensional ZnO Nanostructure: Realization of a Multifunctional Stable Superhydrophobic Surface’, Plos One, 2011, 6, (12)

6 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘A one-step method to fabricate lotus leaves-like ZnO film’, Materials Letters, 2011, 65, (3), pp. 477-479

7 Wu, J., Xia, J., Jing, C., Lei, W., and Wang, B.P.: ‘Formation of hierarchical ZnO nanostructure on tinfoil substrate and the application on wetting repellency’, Applied Physics a-Materials Science & Processing, 2011, 105, (1), pp. 221-224

8 Qu, D., and Xia, J.: ‘Simulation the Dynamic Property of Dielectric Oil on Thin Film Based on Dielectrophoretic Forces’, Proceedings of China Display/Asia Display 2011, 2011, pp. 435-438

9 Chang, C.L., Xia, J., and Lei, W.: ‘Computer-generated Hologram Based on Fractional Fourier Transformation Iteration Algorithm’ (2011. 2011)


2010年:
1 Xia, J., and Wu, J.: ‘Electrowetting on a dielectric surface roughened with zinc oxide tetrapod nanocrystals’, Physica E-Low-Dimensional Systems & Nanostructures, 2010, 43, (1), pp. 81-84

2 Xia, J., Qu, D., Yang, H.N., Chen, J.J., and Zhu, W.L.: ‘Self assembly polymer microlens array for integral imaging’, Displays, 2010, 31, (4-5), pp. 186-190

3 Wu, J., Xia, J., Zhang, Y.N., Lei, W., and Wang, B.P.: ‘A simple method to fabricate the different extents of superhydrophobic surfaces’, Physica E-Low-Dimensional Systems & Nanostructures, 2010, 42, (5), pp. 1325-1328

4 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘Electrowetting on ZnO nanowires’, Applied Physics a-Materials Science & Processing, 2010, 99, (4), pp. 931-934

5 Wu, J., Xia, J., Lei, W., and Wang, B.P.: ‘Superhydrophobic Surface Based on a Coral-Like Hierarchical Structure of ZnO’, Plos One, 2010, 5, (12)

6 Wu, J., Xia, J., Lei, W., and Wang, B.-p.: ‘Fabrication of superhydrophobic surfaces with double-scale roughness’, Materials Letters, 2010, 64, (11), pp. 1251-1253

7 Qin, S.L., Ge, S., Yin, H.C., Xia, J., and Heynderickx, I.: ‘Just noticeable difference in black level, white level and chroma for natural images measured in two different countries’, Displays, 2010, 31, (1), pp. 25-34

8 Chen, L., Tu, Y., Wang, L., Li, Q., Yang, X., Xia, J., Feenstra, B.J., Giraldo, A., and Rosler, N.: ‘Investigation of oil-motion non-uniformity in a reflective display based on electrowetting’, Journal of the Society for Information Display, 2010, 18, (2), pp. 113-119