研究方向：元宇宙/增强现实/虚拟现实、可穿戴显示、仿生器件、眼科学。共计发表SCI期刊论文66篇、EI/其他期刊论文8篇、国际会议论文89篇、发明专利申请41件(授权22件)、软件著作权2件。被引用次数超过1340次(Google Scholar)，H指数22。主持及参与的国家级项目6项：国家自然科学基金重点/面上/青年项目、科技部973/863项目、发改委国家工程实验室等。担任国家级机构/项目评委：国家自然科学基金评审专家、教育部学位论文评审专家、国家虚拟现实创新中心专家、工信部世界VR产业大会创新大赛总决赛评委等。担任SCI期刊编委：Elsevier Optics and Lasers in Engineering (IF=4.6)客座编委、Elsevier Displays (IF=4.3)编委、OSA Optics Express (IF=3.8)客座编委等。曾获2021年度世界VR产业大会虚拟现实产业创新大赛入围半决赛、2016年度上海交通大学晨星青年学者、2015年度第三届上海真空青年创新奖、2014年SID Display Week杰出论文奖、2014年Journal of Information Display最佳论文奖、2008年国家优秀自费留学生基金等。

1.   元宇宙(Metaverse)

2.   增强/虚拟现实(AR/VR)

3.   AR/VR显示(AR/VR Displays)

4.   手势识别(Hand Gesture Recognition)

5.   即时定位与建图(SLAM)

1.   《混合现实：光学与视觉》，博士/硕士一年级，秋季学期

2.   《平板显示与照明概论（工程硕士）》，硕士一年级，春季学期

3.   《平板显示技术（英语）》，本科四年级，秋季学期

4.   《电子信息领域前沿技术（工程）探究》，本科四年级，秋季学期

(1) 重庆市科学技术局，自然科学基金面上项目，cstc2021jcyj-msxmX1136，《面向增强现实的视网膜投影显示》，2021/10-2024/09，10万，在研，主持

(2) 上海市科学技术委员会，自然科学基金面上项目，19ZR1427200，《面向增强现实的近眼显示技术》，2019/07-2022/06，20万，已结题，主持

(3) 国家自然科学基金委员会，重点项目，61831015,《视障辅助多媒体信号处理理论与应用》，2019/01-2023/12，287万，在研，参与（排名第9）

(4) 国家科技部，863课题，2015AA017001，《波长选择开关及宽带可调滤波器阵列核心芯片研究》，2015/01-2017/12，742万，已结题，参与（排名第2）

(5) 国家自然科学基金委员会，青年项目，61307028,《基于染料掺杂液晶的动态全息三维显示技术》，2014/01-2016/12，26万，已结题，主持

(6) 国家自然科学基金委员会，面上项目，61377030，《全溶液法制备叠层式有机发光二极管的关键问题研究》，2014/01-2017/12，83万，已结题，参与（排名第2）

(7) 上海市科学技术委员会，自然科学基金面上项目，13ZR1420000，《动态光学全息三维显示器件与应用研究》，2013/07-2016/06，10万，已结题，主持

(8) 国家科技部，973课题，2013CB328804，《波前重建三维显示器件的实时刷新机理》，2013/01-2017/12，753万，已结题，参与（排名第3）

(9) 国家发改委，国家工程实验室，000013039-2008-01269，《TFT-LCD关键材料及技术国家工程实验室》，2011/01-2013/12，450万，已结题，参与（排名第8）

[1] Elsevier Displays (IF=4.3)期刊编委

[2] Elsevier Optics and Lasers in Engineering (IF=4.6)客座编委

[3] OSA Optics Express (IF=3.8)客座编委

[4] 美国光学学会(OSA/Optica)会员

[5] 国际电气和电子工程师协会(IEEE)会员

[6] 国际光学工程学会(SPIE)会员

[7] 国际信息显示协会(SID)会员

[8] Springer Nature的Light: Science & Applications/Scientific Reports/Photonics Sensors等审稿人

[9] Wiley的Advanced Materials/Advanced Optical Materials/Advanced Electronic Materials/Advanced Materials Technologies等审稿人

[10] OSA的Optica/Optics Letters/Optics Express/Optical Materials Express/Biomedical Optics Express等审稿人

[11] IEEE的Transactions on Visualization and Computer Graphics/Journal of Selected Topics in Quantum Electronics/Electron Device Letters/Photonics Technology Letters/Access等审稿人

[12] ACS的Applied Optical Materials等审稿人

[13] AIP的Applied Physics Letters/Journal of Applied Physics等审稿人

[14] Elsevier的Organic Electronics/Displays/Optik等审稿人

[15] SPIE的Optical Engineering等审稿人

[16] IOP Publishing的Applied Physics Express等审稿人

[17] 中文核心期刊《物理学报》、《光学技术》、《液晶与显示》等审稿人

授权发明专利：

[1] 陈超平、米岚田、张文博、陆逸凡、郭维谦，《一种基于偏光隐形眼镜的近眼显示装置》，中国发明专利，申请号：201810273462.9，授权日：2022.11.25

[2] 陈超平、陈捷、刘浩文、姜婧辉、米岚田，《基于视网膜扫描的眼内显示装置》，中国发明专利，申请号：201911251800.X，授权日：2020.11.3

[3] 陈超平、张仲霖、杨晓，《一种头戴式增强现实智能显示装置》，中国发明专利，申请号：201610075988.7，授权日：2018.11.9

[4] 陈超平、何为、马骏、张奕，《一种内置光源的液晶显示装置》，中国发明专利，申请号：201210593822.6，授权日：2017.5.24

[5] 陈超平、杨玉星、苏翼凯，《干涉调制型显示装置》，中国发明专利，申请号：201410226385.3，授权日：2017.2.15

[6] 李燕、苏翼凯、荣娜、陈超平、陆建钢、吴佳旸、高武然，《空间光调制器及其光场三维显示系统》，中国发明专利，申请号：201410075523.2，授权日：2016.10.5

[7] 高武然、李燕、陈超平、李潇、苏翼凯，《一种用于三维光场动态显示的新型像素结构》，中国发明专利，申请号：201410265122.3，授权日：2016.9.7

[8] 陈超平、苏翼凯，《2D/3D可切换显示装置》，中国发明专利，申请号：201210121403.2，授权日：2015.10.21

[9] 熊源、苏翼凯、陈超平、李潇、何正红、李洪婧、胡伟，《基于双层液晶法布里珀罗滤波器的显示装置》，中国发明专利，申请号：201310012995.9，授权日：2015.10.14

[10] 熊源、苏翼凯、陈超平、李潇、何正红，《基于体积全息原理的大面积相干光背光模组》，中国发明专利，申请号：201210389442.0，授权日：2015.06.24

[11] 熊源、苏翼凯、陈超平、李潇、何正红，《基于体积全息原理的高对比度OLED显示装置》，中国发明专利，申请号：201210389366.3，授权日：2015.05.20

[12] 李潇、陈超平、高洪跃、何正红、熊源、苏翼凯，《一种基于全息光栅的三维立体显示器》，中国发明专利，申请号：201210261659.3，授权日：2014.12.24

[13] 陈超平、张才建，《可调控透镜结构及2D/3D可切换显示装置》，中国发明专利，申请号：201110412967.7，授权日：2014.12.10

[14] 陈超平、陈功伟，《2D/3D可切换显示装置》，中国发明专利，申请号：201210027132.4，授权日：2014.7.23

[15] 陈超平，“Transmission mode switching device and 2D/3D switchable display apparatus”，美国发明专利，申请号：8564874B2，授权日：2013.10.22

[16] 陈超平(第6发明人)等，“Display panel assembly”，韩国发明专利，申请号：10-2006-0101251，授权日：2013.10.29

[17] 陈超平(第6发明人)等，“Liquid crystal display”，韩国发明专利，申请号：10-2008-0044989，授权日：2013.8.5

[18] 陈超平，《透光模式切换装置及二维/三维可切换显示设备》，中国发明专利，申请号：201110080815.1，授权日：2013.1.23

[19] 陈超平、张才建、谈俊，《立体显示系统》，中国发明专利，申请号：201110094541.1，授权日：2012.11.21

[20] 陈超平，《液晶显示面板及液晶显示装置》，中国发明专利，申请号：201010243639.4，授权日：2012.7.11

[21] 陈超平，《面内切换型液晶显示面板及液晶显示器》，中国发明专利，申请号：201010251020.8，授权日：2012.5.16

[22] 陈超平，《自动立体显示装置》，中国发明专利，申请号：201010222373.5，授权日：2012.02.08

软件著作权:

[1] 陈超平、储强，《ARHand：基于手势识别的文字输入软件V2.2》，发布平台：Apple Store，证书号：TBA，登记日：TBA

[2] 陈超平、储强，《iHand：基于手势及语音识别的文字输入软件V2.0》，发布平台：Google Play Console，证书号：11113046，登记日：2023.5.9

[1]     Y. Zhao, Z. Huang, J. Ji, M. Xie, W. Liu, C. P. Chen^*, “Holographic voice-interactive system with Taylor Rayleigh–Sommerfeld based point cloud gridding,” Opt. Lasers Eng., accepted (2024)

[2]     H. Hu, C. P. Chen^*, G. Li, Z. Jin, Q. Chu, B. Han, S. P. Zou, “Bionic vision processing for epiretinal implant-based metaverse,” ACS Applied Optical Materials, accepted (2024)

[3]     Q. Chu, C. P. Chen^*, H. Hu, X. Wu, B. Han, “iHand: hand recognition-based text input method for wearable devices,” Computers 13(3), 80 (2024)

[4]     E. Chen, Z. Yao, Z. Fan, W. Lai, T. Liang, Q. Yan, T. Guo, C. P. Chen^*, “Collimated LED array with mushroom-cap encapsulation for near-eye display projection engine,” IEEE J. Sel. Top. Quantum Electron 30(2), 2000410 (2024)

[5]     C. P. Chen^*, X. Ma, S. P. Zou, T. Liu, Q. Chu, H. Hu, Y. Cui, “Quad-channel waveguide-based near-eye display for metaverse,” Displays 81, 102582 (2023)

[6]     L. Li, C. P. Chen, L. Wang, K. Liang, W. Bao^*, “Exploring artificial intelligence in smart education: real-time classroom behavior analysis with embedded devices,” Sustainability 15(10), 7940 (2023)

[7]     C. P. Chen^*, N. Chen, S.-D. Lee, G. Li, Y. Takaki, F. Wyrowski, “Introduction to the feature issue on augmented/virtual reality: optics & photonics,” Opt. Express 31(6), 10876–10881 (2023)

[8]     Q. Guo, S. Zhang, J. Zhang^*, C. P. Chen, “Design of single-layer color echelle grating optical waveguide for augmented-reality display,” Opt. Express 31(3), 3954–3969 (2023)

[9]     N. Xi, J. Ye, C. P. Chen^*, Q. Chu, H. Hu, S. P. Zou, “Implantable metaverse with retinal prostheses and bionic vision processing,” Opt. Express 31(2), 1079–1091 (2023)

[10]  W. Li, C. P. Chen^*, “Symmetrical coupling multi-cavity bandpass filter for CMOS compatible fluorescence detection,” IEEE Photonics J. 14(6), 2262308 (2022)

[11]  J. W. Ryu, G.-J. Choi, C. P. Chen, C. G. Jhun^*, J. S. Gwag^*, “Stable hazy states by electrohydrodynamic convection of ultraviolet-treated chiral nematic liquid crystal,” J. Mol. Liq. 367, 120467 (2022)

[12]  C. P. Chen^*, Y. Cui, Y. Chen, S. Meng, Y. Sun, C. Mao, Q. Chu, “Near-eye display with a triple-channel waveguide for metaverse,” Opt. Express 30(17), 31256–31266 (2022)

[13]  G. Li, M. McGill, S. Brewster, C. P. Chen, J. A. Anguera, A. Gazzaley, F. Pollick^*, “Multimodal biosensing for vestibular network-based cybersickness detection,” IEEE J. Biomed. Health Inform. 26(6), 2469–2480 (2022)

[14]  W. Li, Z. Yang, J. Zhang, X. Tong, Y. Zhang, B. Liu^*, C. P. Chen^*, “Parabola-like gold nanobowtie on sapphire substrate as nano-cavity,” Photonics 9(3), 193 (2022)

[15]  C. P. Chen, Y. Cui, Y. Ye, F. Yin, H. Shao, Y. Lu, G. Li^*, “Wide-field-of-view near-eye display with dual-channel waveguide,” Photonics 8(12), 557 (2021)

[16]  Y. Liu, D. Yang, S. Yan, J. Sun, C. P. Chen^*, D.-S. Seo^*, “Vanadium dioxide nanoparticle doped polyimide hybrid alignment layers for flexible liquid crystal displays,” ACS Appl. Electron. Mater. 3(12), 5443–5450 (2021)

[17]  W. Li, X. Tong, Z. Yang, J. Zhang, B. Liu^*, C. P. Chen^*, “Improved sensitivity of surface-enhanced Raman scattering with gold nanoparticles-insulator-metal sandwich layers on flat sapphire substrate,” Nanomaterials 11(9), 2416 (2021)

[18]  C. P. Chen, L. Mi, W. Zhang, J. Ye, G. Li^*, “Waveguide-based near-eye display with dual-channel exit pupil expander,” Displays 67, 101998 (2021)

[19]  C. P. Chen, C. G. Jhun^*, “Reflective bistable chiral splay nematic liquid crystal for low-power heat sensor,” Sensors 20(21), 5937 (2020)

[20]  W. Zhang, C. P. Chen^*, H. Ding, L. Mi, J. Chen, Y. Liu, C. Zhu, “See-through near-eye display with built-in prescription and two-dimensional exit pupil expansion,” Appl. Sci. 10(11), 3901 (2020)

[21]  J. Chen, L. Mi, C. P. Chen^*, H. Liu, J. Jiang, W. Zhang, “Design of foveated contact lens display for augmented reality,” Opt. Express 27(26), 38204–38219 (2019)

[22]  Y. Li, C. P. Chen^*, N. Maitlo, L. Mi, W. Zhang, J. Chen, “Deep neural network-based loop detection for visual simultaneous localization and mapping featuring both points and lines,” Wiley Advanced Intelligent Systems 1(8), 1900107 (2019)

[23]  C. P. Chen, D. S. Kim, C. G. Jhun^*, “Electro-optical effects of a color polymer-dispersed liquid crystal device by micro-encapsulation with a pigment-doped shell,” Crystals 9(7), 364 (2019)

[24]  L. Mi, C. P. Chen^*, Y. Lu, W. Zhang, J. Chen, N. Maitlo, “Design of lensless retinal scanning display with diffractive optical element,” Opt. Express 27(15), 20493–20507 (2019)

[25]  Y. Wu, C. P. Chen^*, L. Mi, W. Zhang, J. Zhao, Y. Lu, W. Guo, B. Yu, Y. Li, N. Maitlo, “Design of retinal-projection-based near-eye display with contact lens,” Opt. Express 26(9), 11553-11567 (2018)

[26]  Z. Zhang, C. P. Chen^*, Y. Li, B. Yu, L. Zhou, Y. Wu, “Angular multiplexing of holographic display using tunable multi-stage gratings,” Mol. Cryst. Liq. Cryst. 657(1), 102–106 (2018)

[27]  C. P. Chen^*, L. Zhou, J. Ge, Y. Wu, L. Mi, Y. Wu, B. Yu, Y. Li, “Design of retinal projection displays enabling vision correction,” Opt. Express 25(23), 28223-28235 (2017)

[28]  X. Wei, H.-J. Yu, J. Cao^*, C. Jhun, C.-P. Chen, “Efficient blue and white phosphorescent organic light-emitting diodes with a mixed host in emission layer,” Mol. Cryst. Liq. Cryst. 651, 108-117 (2017)

[29]  Y. Wu, C. P. Chen^*, L. Zhou, Y. Li, B. Yu, H. Jin, “Design of see-through near-eye display for presbyopia,” Opt. Express 25, 8937–8949 (2017)

[30]  L. Zhou, C. P. Chen^*, Y. Wu, Z. Zhang, K. Wang, B. Yu, Y. Li, “See-through near-eye displays enabling vision correction,” Opt. Express 25(3), 2130-2142 (2017)

[31]  C. P. Chen, Y. Wu, L. Zhou, K. Wang, Z. Zhang, C. G. Jhun^*, “Crosstalk-free dual-view liquid crystal display using patterned E-type polarizer,” Appl. Opt. 56(3), 380-384 (2017)

[32]  J. Cao^*, J.-W. Xie, X. Wei, J. Zhou, C.-P. Chen, Z.-X. Wang, C. Jhun, “Bright hybrid white light-emitting quantum dot device with direct charge injection into quantum dot,” Chin. Phys. B 25, 128502 (2016)

[33]  X. Li, C. P. Chen^*, Y. Li, P. Zhou, X. Jiang, N. Rong, S. Liu, G. He, J. Lu, Y. Su^*, “High-Efficiency Video-Rate Holographic Display Using Quantum Dot Doped Liquid Crystal,” J. Disp. Technol. 12, 362–367 (2016)

[34]  Y. Li^*, S. Huang, N. Rong, J.-G. Lu, C. P. Chen, X. Li, P. Zhou, Y. Yuan, S. Liu, G. He, Y. Su, “Transmissive and Transflective Blue-Phase LCDs With Double-Layer IPS Electrodes,” J. Disp. Technol. 12, 122–128 (2016)

[35]  W.-H. Li, D.-C. Hu, Y. Li, C. P. Chen, Y.-J. Lee, A. Lien, J.-G. Lu^*, Y. Su, “Fringing field-induced monodomain of a polymer-stabilized blue phase liquid crystal,” Appl. Phys. Lett. 107, 241105 (2015)

[36]  C. P. Chen, Y. Li, Y. Su, G. He, J. Lu, L. Qian^*, “Transmissive Interferometric Display with Single-Layer Fabry-Pérot Filter,” J. Disp. Technol. 11(9), 715–719 (2015)

[37]  Y. Yuan, Y. Li^*, C. P. Chen, S. Liu, N. Rong, W. Li, X. Li, P. Zhou, J. Lu, R. Liu, Y. Su, “Polymer-stabilized blue-phase liquid crystal grating cured with interfered visible light,” Opt. Express 23, 20007-20013 (2015)

[38]  J. Cao, C. P. Chen, B. S. Bae, J.-K. Song, D. S. Kim, C. G. Jhun^*, “Enhanced Reflectance of Cholesteric Liquid Crystal Device with Quantum Dots,” Mol. Cryst. Liq. Cryst. 613, 59–62 (2015)

[39]  Z.-H. He, C.-P. Chen^*, J.-L. Zhu, Y.-C. Yuan, Y. Li^*, W. Hu, X. Li, H.-J. Li, J.-G. Lu, Y.-K. Su, “Electrically tunable holographic polymer templated blue phase liquid crystal grating,” Chin. Phys. B 24, 064203 (2015)

[40]  W. Hu, C. P. Chen, Y. Li, Z. He, X. Li, P. Zhou, J. Lu, Y. Su^*, “Improvement of diffraction efficiency of flat-panel coherent backlight for holographic displays,” Opt. Express 23, 4726-4735 (2015)

[41]  X. Li, C. P. Chen^*, Y. Li, X. Jiang, H. Li, W. Hu, G. He, J. Lu, Y. Su^*, “Color holographic display based on azo-dye-doped liquid crystal,” Chin. Opt. Lett. 12, 060003-1-4 (2014)

[42]  X. Li, C. P. Chen^*, H. Gao, Z. He, Y. Xiong, H. Li, W. Hu, Z. Ye, G. He, J. Lu, Y. Su^*, “Video-rate holographic display using azo-dye-doped liquid crystal,” J. Disp. Technol. 10(6), 438–443 (2014)

[43]  J. Wang, S. Huang, J. Liu, X. Wu, X. Shi, C. Chen, Z. Ye, J. Lu, Y. Su, G. He^*, “High-efficiency organic light-emitting diodes based on the gradient doping and nonlinear cross-fading doping in transporting layers,” J. Soc. Inf. Display 22, 83–88 (2014)

[44]  J.-L. Zhu, S.-B. Ni, C. P. Chen, D.-Q. Wu, X.-L. Song, C.-Y. Chen, J.-G. Lu^*, Y. Su, H.-P. D. Shieh, “Chiral-induced self-assembly sphere phase liquid crystal with fast switching time,” Appl. Phys. Lett. 104, 091116 (2014)

[45]  X. Shi, J. Wang, J. Liu, S. Huang, X. Wu, C. Chen, J. Lu, Y. Su, Y. Zheng^*, W. Y. Kim, G. He^*, “High-performance green phosphorescent top-emitting organic light-emitting diodes based on FDTD optical simulation,” Org. Electron. 15, 864-870 (2014)

[46]  C. Chen, H. Li, Y. Zhang, C. Moon, W. Y. Kim, C. G. Jhun^*, “Thin-film encapsulation for top-emitting organic light-emitting diode with inverted structure,” Chin. Opt. Lett. 12(2), 022301 (2014)

[47]  J.-L. Zhu. S.-B. Ni, C. P. Chen, X.-L. Song, C.-Y. Chen, J.-G. Lu, Y. Su, “The influence of polymer system on polymer-stabilized blue phase liquid crystals,” Liq. Cryst. 41, 891-896 (2014)

[48]  Z. He, C. P. Chen^*, H. Gao, Q. Shi, S. Liu, X. Li, Y. Xiong, J. Lu, G. He, Y. Su^*, “Dynamics of peristrophic multiplexing in holographic polymer-dispersed liquid crystal,” Liq. Cryst. 41(5), 673-684 (2014)

[49]  S. Ni, H. Li, S. Li, J. Zhu, J. Tan, X. Sun, C. P. Chen, G. He, D. Wu, K.-C. Lee, C.-C. Lo, A. Lien, J. Lu^*, Y. Su, “Low-voltage blue-phase liquid crystals with polyaniline-functionalized graphene nanosheets,” J. Mater. Chem. C 2, 1730-1735 (2014)

[50]  C. P. Chen, Y. Xiong, Y. Yang, X. Li, H. Li, G. He, J. Lu, Y. Su^*, “Double-layer Fabry-Perot filter interferometric modulator display,” J. Inf. Disp. 14(4), 121–125 (2013)

[51]  B. S. Bae, S. Han, S. S. Shin, K. Chen, C. P. Chen, Y. Su, C. G. Jhun^*, “Dual Structure of Cholesteric Liquid Crystal Device for High Reflectance,” Electron. Mater. Lett. 9, 735-740 (2013)

[52]  J. Wang, J. Liu, S. Huang, X. Wu, X. Shi, C. Chen, Z. Ye, J. Lu, Y. Su, G. He^*, Y. Zheng^*, “High efficiency green phosphorescent organic light-emitting diodes with a low roll-off at high brightness,” Org. Electron. 14, 2854-2858 (2013)

[53]  S. Huang, Z. Ye^*, J. Lu, Y. Su, C. Chen, G. He, “Position dependence of extraction efficiency in organic light-emitting diodes with photonic crystal structure,” Chin. Opt. Lett. 11, 062302-1-4 (2013)

[54]  J.-L. Zhu, S.-B. Ni, Y. Song, E.-W. Zhong, Y.-J. Wang, C. P. Chen, Z. Ye, G. He, D.-Q. Wu, X.-L. Song, J.-G. Lu^*, Y. Su, “Improved Kerr constant and response time of polymer-stabilized blue phase liquid crystal with a reactive diluent,” Appl. Phys. Lett. 102, 071104 (2013)

[55]  Y. Xiong, Z. He, C. P. Chen, X. Li, A. Li, Z. Ye, J. Lu, G. He, Y. Su^*, “Coherent backlight system for flat-panel holographic 3D display,” Opt. Commun. 296, 41-46 (2013)

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