Journal papers published

2018

[1]W. Liu, K. Toussaint Jr., C. Okoro, D. Zhu, Y. Chen, C. Kuang*, X. Liu, Breaking the axial diffraction limit: A guide to axial super-resolution fluorescence microscopy, Laser & Photonics Reviews, (2018)  1700333.

[2]G. Zhao#, C. Zheng#, C. Kuang*, R. Zhou, M. Kabir, K. Toussaint Jr., W. Wang, L. Xu, H. Li, P. Xiu, X. Liu, Nonlinear focal modulation microscopy, Physical Review Letters, 2018, 120(19): 193901. (# co-first author) (cover paper)

[3]V. Le , X. Wang, C. Kuang, X. Liu*,  Resolution enhancement of confocal scanning microscopy using low-intensity imaging part of point spread function, Optical Engineering, 2018, 57(5): 053106.

[4]C. Li, C. Kuang*, X. Liu. Prospects for Fluorescence Nanoscopy, ACS nano, 2018.

[5]Y. Chen, R. Cao, W. Liu, D. Zhu, Z. Zhang, C. Kuang*, X. Liu, Widefield & TIRF structured illumination microscopy with scanning galvo mirrors, Journal of Biomedical Optics, 23(2), 046007 (2018).

[6]W. Wang, G. Zhao, C. Kuang*, L. Xu, S. Liu, S. Sun, P. Shentu, Y. Yang, Y. Xu, X. Liu*, Integrated dual-color stimulated emission depletion (STED) microscopy and fluorescence emission difference (FED) microscopy, Optics Communications, 423 (2018) 167–174. 

[7]S. Liu, Z. Zhang, J. Zheng, L. Xu, C. Kuang*, X. Liu, Parallelized fluorescence lifetime imaging microscopy (FLIM) based on photon reassignment. Optics Communications, 421 (2018) 83–89. 

[8]C. Li, S. Liu, W. Wang, W. Liu, C. Kuang*, X. Liu, Recent research on stimulated emission depletion microscopy for reducing photobleaching. Journal of Microscopy, (2018), doi:10.1111/jmi.12698

[9]C. Zheng, G. Zhao, W. Liu, Y. Chen, Z. Zhang, L. Jin, Y. Xu, C. Kuang*, X. Liu, Three-dimensional super-resolved live cell imaging through polarized multi-angle TIRF, Optics Letters, 43 (2018) 1423-1426.

[10]Z. Yu#, S. Liu#, S. Sun, C. Kuang*, X. Liu, Imaging resolution and properties analysis of super-resolution microscopy with parallel detection, Journal of Modern Optics, 340 (2018) 1428374. (# co-first author)

[11]V. Le, C. Kuang, X. Liu*, Extended depth-of-field imaging by both radially symmetrical conjugating phase masks with spatial frequency post-processing, Optics Communications, 411 (2018) 80–872.

2017

[1]R. Cao, C. Kuang*, Y. Liu, X. Liu, Superresolution via saturated virtual modulation microscopy, Optics Express 25 (2017) 32 364-32379
[2]A. Hussain, Y. Li, D. Liu, C. Kuang, X. Liu*, Lensless imaging through multiple phase patterns illumination, Journal of Biomedical Optics, 22(11) (2017) 110502.
[3]A. Hussain, Y. Li, D. Liu, C. Kuang, X. Liu*, On-chip Microscopy Using Random Phase Mask Scheme, Scientific Reports, (2017)7: 14768.
[4]V. Le, C. Kuang, X. Liu*, Optimization of wavefront coding systems based on the use of multitarget optimization, Optical Engineering, 56(9), (2017) 093102.
[5]G. Zhao, C. Zheng, C. Kuang*, X. Liu, Resolution-enhanced SOFI via structured illumination, Optics Letters, 42  (2017) 3956-3959.
[6]C. Zheng, G. Zhao, C. Kuang*, X. Liu, 3D point scanning super-resolution microscopy via polarization modulation, Optics Letters, 42 (2017)3734-3737.
[7]D. Zhu, Y. Chen, Y. Fang, A. Hussain, C. Kuang*, X. Zhou, Y. Xu, X. Liu, Compact three-dimensional super-resolution system based on fluorescence emission difference microscopy, Optics Communications, 405 (2017) 157-163.
[8]R. Cao, T. Yang, Y. Fang, C. Kuang*, and X. Liu, Pattern-illuminated Fourier ptychography microscopy with a pattern-estimation algorithm, Applied Optics, 56 (2017) 6930-6935.
[9]赵光远, 郑程, 方月, 等. 基于点扫描的超分辨显微成像进展[J]. 物理学报, 2017, 66(14): 148702-148702. (Invited)
[10]S. Sun, S. Liu, C. Kuang*, X. Liu, Two-photon microscopy with enhanced contrast and resolution, Applied Optics, 56 (2017) 3799-3805.
[11]A. Hussain, T. Amin, C. Kuang, L. Cao, X. Liu*, Simple fringe illumination technique for optical superresolution, J. Opt. Soc. Am. B, 34 (2017) B78-B84.
[12]C. Zheng, R. Zhou*, C. Kuang, G. Zhao, Z. Yaqoob, P.T.C. So, Digital micromirror device-based common-path quantitative phase imaging, Optics Letters, 42 (2017) 1448-1451.
[13]Y. Huang, D. Zhu, L. Jin, C. Kuang, Y. Xu*, X. Liu, Laser scanning saturated structured illumination microscopy based on phase modulation, Optics Communications 396 (2017) 261–266.
[14]H. Li, L. Ou, J. Fan, M. Xiao, C. Kuang, X. Liu, Y. Sun, Y. Xu*, Rab8A regulates insulin‐stimulated GLUT4 translocation in C2C12 myoblasts, FEBS letters, (2017).
[15]R. Zhou*, D. Jin, P. Hosseini, V.R. Singh, Y.H. Kim, C. Kuang, R.R. Dasari, Z. Yaqoob, P.T. So, Modeling the depth-sectioning effect in reflection-mode dynamic speckle-field interferometric microscopy, Optics Express, 25 (2017) 130.
[16]Y. Li, S. Liu, D. Liu, S. Sun, C. Kuang*, Z. Ding, X. Liu*, Image scanning fluorescence emission difference microscopy based on a detector array, Journal of Microscopy, (2017), JT3A.61.
[17]G. Zhao, M.M. Kabir, K.C. Toussaint, C. Kuang*, C. Zheng, Z. Yu, X. Liu, Saturated absorption competition microscopy, Optica, 4 (2017) 633-636.
[18]X. Liu, C. Kuang, X. Hao, C. Pang, P. Xu, H. Li, Y. Liu, C. Yu, Y. Xu, D. Nan, W. Shen, Y. Fang, L. He, X.
Liu, Q. Yang*, Fluorescent Nanowire Ring Illumination for Wide-Field Far-Field Subdiffraction Imaging, Physical Review Letters, 118 (2017) 076101.
[19]C. Zheng, R. Zhou, C. Kuang*, G. Zhao, Z. Zhang, X. Liu, Diffraction phase microscopy realized with an automatic digital pinhole, Optics Communications, (2017).
[20]Y. Chen, D. Zhu, Y. Fang, C. Kuang*, X. Liu, A novel method for enhancing the lateral resolution and image SNR in confocal microscopy, Optics Communications, (2017).
[21]B. Ge, Y. Huang, Y. Fang, C. Kuang*, P. Xiu, X. Liu, Frequency domain phase-shifted confocal microscopy (FDPCM) with array detection, Journal of Modern Optics, (2017) 1-7.
[22]Z. Yu, S. Liu, D. Zhu, C. Kuang*, X. Liu, Parallel detecting super-resolution microscopy using correlation based image restoration, Optics Communications, (2017).
[23]F. Yang, C. Kuang, W. Zhao, G. Wang*, AC electrokinetic fast mixing in non-parallel microchannels, Chemical Engineering Communications, 204(2017)190–197.
[24]D. Zhu, Y. Fang, Y. Chen, A. Hussain, C. Kuang*, Z. Ding, X. Liu, Comparison of multi-mode parallel detection microscopy methods, Optics Communications, 387(2017) 275-280.
[25]D. Zhu, Y. Chen, C. Kuang*, X. Liu, Emission difference super-resolution microscopy with optical lattices scanning and wide field detection, Optics Communications, 395(2017)29–33.
[26]S. Liu, S. Sun, C. Kuang*, B. Ge, W. Wang, X. Liu, Saturated virtual fluorescence emission difference microscopy based on detector array, Optics Communications, 395(2017)45–50.

2016
[1]Q. Liu, Y. Fang, R. Zhou, P. Xiu, C. Kuang, X. Liu*, Surface wave illumination Fourier ptychographic microscopy, Optics Letters, 41 (2016) 5373-5376.
[2]L. Jin, J. Wu, P. Xiu, J. Fan, M. Hu, C. Kuang, Y. Xu*, X. Zheng, X. Liu, High-resolution 3D reconstruction of microtubule structures by quantitative multi-angle total internal reflection fluorescence microscopy, Optics Communications, (2016). 
[3]Y. Fang, Y. Chen, C. Kuang*, P. Xiu, Q. Liu, B. Ge, X. Liu, Saturated pattern-illuminated Fourier ptychography microscopy, Journal of Optics, 19 (2016) 015602.
[4]H. Li, Y. Huang, C. Kuang*, X. Liu, Method of super-resolution based on array detection and maximum-likelihood estimation, Applied Optics, 55 (2016) 9925-9931.
[5]S. You, C. Kuang, B. Zhang*, Resolution criteria in double-slit microscopic imaging experiments, Scientific Reports, 6 (2016) 33764.
[6]G. Zhao, C. Kuang*, Z. Ding, X. Liu, Resolution enhancement of saturated fluorescence emission difference microscopy, Optics Express, 24 (2016) 23596-23609.
[7]Y. Huang, Y. Wang, C. Kuang*, X. Liu, Method for enhancing stability in multi-beam microscopy, Meas. Sci. Technol. 27 (2016) 105901
[8]C. Kuang*, Y. Ma, R. Zhou, G. Zheng, Y. Fang, Y. Xu, X. Liu, P.T. So, Virtual k-Space Modulation Optical Microscopy, Physical Review Letters, 117 (2016) 028102.
[9]P. Xiu, Y. Chen, C. Kuang*, Y. Fang, Y. Wang, J. Fan, Y. Xu, X. Liu, Structured illumination fluorescence Fourier ptychographic microscopy, Optics Communications, 381 (2016) 100-106.
[10]Q. Liu, C. Kuang*, Y. Fang, P. Xiu, Y. Li, R. Wen, X. Liu, Effect of spatial spectrum overlap on fourier ptychographic microscopy, Journal of Innovative Optical Health Sciences, (2016).
[11]G. Zhao, Z. Rong, C. Zheng, X. Liu, C. Kuang*, 3D fluorescence emission difference microscopy based on spatial light modulator, Journal of Innovative Optical Health Sciences, (2016).
[12]P. Hosseini, R. Zhou, Y.-H. Kim, C. Peres, A. Diaspro, C. Kuang, Z. Yaqoob, P.T. So*, Pushing phase and amplitude sensitivity limits in interferometric microscopy, Optics Letters, 41 (2016) 1656-1659.
[13]B. Ge, Y. Wang, Y. Huang, C. Kuang*, Y. Fang, P. Xiu, Z. Rong, X. Liu, Three-dimensional resolution and contrast-enhanced confocal microscopy with array detection, Optics Letters, 41 (2016) 2013-2016.
[14]S. Liu, S. You, Y. Fang, Y. Wang, C. Kuang*g, X. Liu, Effects of polarization and phase modulation on the focal spot in 4Pi microscopy, Journal of Modern Optics, (2016) 1-13.

 
2015
[1]B. Ge, L. Zhu, C. Kuang*, D. Zhang, Y. Fang, Y. Ma, X. Liu, "Fluorescence emission difference with defocused surface plasmon-coupled emission microscopy," Optics Express, 32561-32572 (2015).
[2]Y. Ma, C. Kuang*, Y. Fang, B. Ge, D. Li, X. Liu, ''Virtual fluorescence emission difference microscopy based on photon reassignment,'' Optics Letters, 4627-4630,40 (2015).
[3]C. Kuang, Y. Ma, R. Zhou, J. Lee, G. Barbastathis, R.R. Dasari, Z. Yaqoob, P.T.C. So, ''Digital micromirror device-based laser-illumination Fourier ptychographic microscopy,'' Optics Express, 26999-27010.23 (2015) .
[4]S. You, C. Kuang*, K.C. Toussaint, R. Zhou, X. Xia, X. Liu, ''Iterative phase-retrieval method for generating stereo array of polarization-controlled focal spots,'' Optics Letters, 3532-3535,40 (2015).
[5]L. Xue, C. Kuang*, Y. Fang, S. You, Y. Ma, X. Liu, ''Axial nanodisplacement measurement based on the double-helix point spread function generated using radially polarized beams with vortex phase modulation, '' Japanese Journal of Applied Physics 54, 082501 (2015).
[6]Z. Rong, C. Kuang*, Y. Fang, G. Zhao, Y. Xu, X. Liu, ''Super-resolution microscopy based on fluorescence emission difference of cylindrical vector beams,'' Optics Communications,71-78(2015).
[7]Y. Wang, Y. Ma, C. Kuang*, Y. Fang, Y. Xu, X. Liu, Z. Ding, ''Dual-mode super-resolution imaging with stimulated emission depletion microscopy and fluorescence emission difference microscopy,'' Applied Optics, 5425-5431,54 (2015). 
[8]B. Ge, Y. Ma, C. Kuang*, D. Zhang, K.C. Toussaint, S. You, X. Liu, ''Resolution-enhanced surface plasmon-coupled emission microscopy,'' Optics Express,13159-13171,23(2015).
[9]P. Xiu, X. Zhou, C. Kuang*, Y. Xu, X. Liu, ''Phase microscopy using light-field reconstruction method for cell observation,'' Micron, 11-17,75 (2015) .
[10]H. Cai, Y. Wang, C. Kuang*, J. Ge, Y. Xu, X. Liu,"Sub-diffraction imaging with total internal reflection fluorescence (TIRF) microscopy by stochastic photobleaching," Journal of Modern Optics, 1-6(2015).
[11]Y. Liu, C. Kuang*, X. Liu, ''The use of azimuthally polarized sinh-Gauss beam in STED microscopy,'' Journal of Optics, 045609.17(2015).
[12]S. You, C. Kuang*, S. Li, X. Liu, Z. Ding, ''Three-dimensional super-resolution imaging for fluorescence emission difference microscopy,'' AIP Advances, 084901. 5 (2015).
[13]Y. Ma, C. Kuang*, W. Gong, L. Xue, Y. Zheng, Y. Wang, K. Si, X. Liu, ''Improvements of axial resolution in confocal microscopy with fan-shaped apertures," Applied Optics, 54,1354-1362(2015) .
[14]Y. Fang, C. Kuang, Y. Ma, Y. Wang, X. Liu*, "Resolution and contrast enhancements of optical microscope based on point spread function engineering," Frontiers of Optoelectronics, 1-11 (2015).
[15]Y. Ma, C. Kuang*, Y. Fang, B. Ge, X. Mao, S. Shen, Y. Xu, X. Liu, ''Particle localization with total internal reflection illumination and differential detection,'' Optics Communications, 339,14-21(2015).
[16]Y. Zhu, S. Liu, C. Kuang*, S. Li, X. Liu, Roll angle measurement based on common path compensation principle, Optics and Lasers in Engineering, 67, 66-73 (2015).
[17]P. Xiu, X. Zhou, C. Kuang*, Y. Xu, X. Liu," Controllable tomography phase microscopy," Optics and Lasers in Engineering, 66, 301-306 (2015).
[18]P. Zhang, Y. Wang, C. Kuang*, S. Li and X. Liu, "Measuring roll angle displacement based on ellipticity with high resolution and large range," Optics & Laser Technology 65(0), 126-130 (2015)
  
2014
[1]Y. liu, C. Kuang*, X. Liu,''A method for achieving multiple foci with subdiffraction resolution along the axial direction," Journal of Modern Optics, pp.1-5(2014).
[2]S. You, C. Kuang*, Z Rong, X Liu, Z. Ding"Isotropic superresolution imaging for fluorescence emission difference microscopy"Applied Optics Vol. 53, Iss. 33, pp. 7838–7844 (2014)

[3]S. You, C. Kuang*, Z. Rong, X. Liu, Eliminating deformations in fluorescence emission difference microscopy, Opt Express, 22 (2014) 26375-26385.
[4]Y. Wang, C. Kuang*, S. Li, X. Hao, Y. Xu, X. Liu, A 3D aligning method for stimulated emission depletion microscopy using fluorescence lifetime distribution, Microscopy research and technique, 77:935–940 (2014).
[5]Z. Rong, S. Li, C. Kuang*, Y. Xu, X. Liu, Real-time super-resolution imaging by high-speed fluorescence emission difference microscopy, Journal of Modern Optics,1-8, (2014)
[6]Y. Ma, Y. Wang, X. Zhou, C. Kuang* and X. Liu, "3D dual-virtual-pinhole assisted single particle tracking microscopy," Journal of Optics 16(7), 075703 (2014)
[7]修鹏,江芸珊,王轶凡,匡翠方,李帅,刘旭. 一种柱状矢量偏振光的检测与评价方法[J]. 光学学报, 2014, 34(6): 0612002
[8]Y Fang,Y Wang,C  Kuang*, et al. Enhancing the resolution and contrast in CW-STED microscopy. Optics Communications, (2014)
[9]C Jiang,C  Kuang*,S  Li, et al. Arbitrary three-dimensional polarization control based on cylindrical vector beams and binary phase coding. Journal of Modern Optics,1-7, (2014)
[10]Y. Wang, C. Kuang*, H. Cai, S. Li, W. Liu, X. Hao, J. Ge, X. Liu, Sub-diffraction imaging with confocal fluorescence microscopy by stochastic photobleaching, Optics Communications, 312,62-67.(2014)
[11] Y. Wang, C. Kuang*, P. Xiu, S. Li, X. Hao, X. Liu, A lateral differential confocal microscopy for accurate detection and localization of edge contours, Optics and Lasers in Engineering, 53, 12-18. (2014)
[12] Y. Hu, S. Li, C. Kuang*, P. Xiu, J. Ge and X. Liu, "An axial displacement measurement relying on the double-helix light beam," Optics & Laser Technology 59(0), 1-6 (2014)

 

2013
[1]王金成, 匡翠方*, 王轶凡,刘旭, 基于压缩感知的荧光显微多光谱成像[J],中国激光,40(12), 1204003-1204001 (2013)

[2]X. Hao, C. Kuang*, Z. Gu, Y. Wang, S. Li, Y. Ku, Y. Li, J. Ge, and X. Liu*, "From microscopy to nanoscopy via visible light," Light: Science & Applications 2, e108 (2013)
[3]S. Li, C. Kuang*, X. Hao, Y. Wang, J. Ge, X. Liu, Enhancing the performance of fluorescence emission difference microscopy using beam modulation, Journal of Optics, 15, 125708, (2013)
[4] 蔡欢庆,匡翠方*,王轶凡,葛剑虹,刘旭.  基于宽场随机荧光漂白的超分辨显微方法[J].中国激光. 40(11):1110001-5 (2013)
[5] Y. Wang, C. Kuang*, Z. Gu, Y. Xu, S. Li,  X. Hao,  X. Liu, Time-gated stimulated emission depletion nanoscopy, Optical Engineering, 52(9), 093107 ( 2013)
[6]王轶凡,匡翠方*,顾兆泰,李帅,刘旭. 基于相干涡旋位相调制的偏振可调柱状矢量偏振光的产生[J]. 光学学报. 33(10), 1005001-1:1005001-6. (2013)
[7]X.Hao, C.Kuang, Y.Li, and X.Liu*, "Evanescent-wave-induced frequency shift for optical superresolution imaging," Opt. Lett. 38, 2455-2458 (2013)
[8]S.Li, C. Kuang*, J. Ge, and X.Liu, "Axial nano-displacement measurement with high resolution and wide range based on asymmetrical illumination," Opt. Express 21, 7528-7537 (2013)
[9]C. Kuang*, S. Li, W. Liu, X. Hao, Z. Gu, Y. Wang, J. Ge, H. Li, and X. Liu, "Breaking the Diffraction Barrier Using Fluorescence Emission Difference Microscopy," Scientific Reports 3 (2013).
[10]Y. Ku, C. Kuang*, X. Hao, H. Li, and X. Liu, "Parameter optimization for photonic nanojet of dielectric microsphere," Optoelectronics Letters 9, 153-156 (2013).
[11]X. Hao, C. Kuang*, Z. Gu, S. Li, Y. Li, and X. Liu, "Contrast reversal confocal microscopy," Optics Communications 298–299, 272-275 (2013)
[12] X. Hao, C. F. Kuang*, Y. H. Li, and X. Liu, "A focal spot with variable intensity distribution for optical tweezers," Laser Physics Letters10, 045602 (2013).
 

[13] L. Li, C. Kuang*, Y. Xue, and X. Liu, "Nano-displacement measurement based on virtual pinhole confocal method," Measurement Science and Technology 24, 035003 (2013).
[14] X. Hao, C. Kuang*, Z. Gu, S. Li, J. Ge, and X. Liu, "Optical super-resolution by subtraction of time-gated images," Optics Letters 38, 1001-1003 (2013)
[15] C. Kuang*, D. Luo, X. Liu, and G. Wang, "Study on factors enhancing photobleaching effect of fluorescent dye," Measurement. 46, 1393–1398 (2013).
[16] X. Hao, X. Liu*, C. Kuang, Y. Li, Y. Ku, H. Zhang, H. Li, and L. Tong, "Far-field super-resolution imaging using near-field illumination by micro-fiber," Appl Phys Lett 102, 013104 (2013).
[17] Z. Gu, C. Kuang*, X. Hao, Y. Xue, Z. Zheng, and X. Liu, "Methods for generating a dark spot using phase and polarization modulation light," Optik - International Journal for Light and Electron Optics 124, 650–654(2013).
[18] K. Li, C.Kuang*, X. Liu,"Small angular displacement measurement based on an autocollimator and a common-path compensation principle," Rev. Sci. Instrum. 84, 015108 (2013).
[19] Y. Wang, C. Kuang*, Z. Gu, X. Liu, Image subtraction method for improving lateral resolution and SNR in confocal microscopy,"Optics & Laser Technology, 48, 489-494 (2013) .
[20] 郝翔,匡翠方*,顾兆泰,李帅,刘旭. 基于时间相关单光子计数的离线式g-STED超分辨显微术,中国激光.40(1):0104001-5 (2013)
[21] Z. Gu, C. Kuang*, S. Li, Y. Xue, X. Hao, Z. Zheng, and X. Liu, "An interferential method for generating polarization-rotatable cylindrical vector beams," Optics Communications , 286 (0), 6-12. (2013).
[22] D. Luo, C. Kuang*, X. Liu, and G. Wang, "Experimental investigations on fluorescence excitation and depletion of ATTO 390 dye,"Optics & Laser Technology. 45, 723–725 (2013).
[23]T. Wang, C. Kuang*, X. Hao, X. Liu, “Focusing properties of cylindrical vector vortex beams with high numerical aperture objective.” Optik - International Journal for Light and Electron Optics.(2013)
[24] 李帅,匡翠方*,丁志华,郝翔,顾兆泰,葛剑红,刘旭, 受激发射损耗显微术(STED)的机理及其进展研究,"激光生物学报. 22, 1007-7146 (2013).

 
2012
[1] J. Ge*, C. Kuang, S.-S. Lee, and F.-J. Kao*, "Fluorescence lifetime imaging with pulsed diode laser enabled stimulated emission," Optics Express 20, 28216-28221 (2012).
[2] 顾兆泰, 匡翠方*, 郑臻荣, 刘旭. 共聚焦荧光寿命显微系统. 光电子激光. 23(8): 1472-1477 (2012).
[3] Y. Xue, C. Kuang*, S. Li, Z. Gu, and X. Liu, "Sharper fluorescent super-resolution spot generated by azimuthally polarized beam in STED microscopy," Opt. Express 20, 17653-17666 (2012).
[4] Y. Ku, C. Kuang*, X. Hao, Y. Xue, H. Li, and X. Liu, "Superenhanced three-dimensional confinement of light by compound metal-dielectric microspheres," Opt. Express 20, 16981-16991 (2012).
[5] X. Hao, C. Kuang*, Y. Li, X. Liu, Y. Ku, and Y. Jiang, "Hydrophilic microsphere based mesoscopic-lens microscope (MMM)," Optics Communications 285, 4130-4133 (2012).
[6] X. Hao, C. Kuang*, Y. Li, and X. Liu, "Continuous manipulation of doughnut focal spot in a large scale," Optics. Express 20, 12692-12698 (2012).
[7] Y. Ku, C. Kuang*, D. Luo, T. Wang, and H. Li, "Differential internal multi-reflection method for nano-displacement measurement,"Optics and Lasers in Engineering 50, 1445-1449 (2012).
[8] D. Luo, C. Kuang*, X. Hao, and X. Liu, "High-precision laser alignment technique based on spiral phase plate," Optics and Lasers in Engineering 50, 944-949 (2012).
[9] S. Li, C. F. Kuang*, X. Hao, Z. Gu, and X. T. Liu, "Generation of a 3D isotropic hollow focal spot for single-objective stimulated emission depletion microscopy," J Optics-Uk 14(2012)
[10] L. Li, C. Kuang*, D. Luo, X. Liu. “Axial Nano-displacement Measurement Based on Astigmatism Effect of Crossed Cylindrical Lenses”, Applied Optics 51:(13) (2012) (cover article) 
[11] X. Hao, C. Kuang*, Y. Li, and X. Liu, "Manipulation of doughnut focal spot by image inverting interferometry," Optics. Letters. 37, 821-823 (2012).
[12] X. Hao, C. Kuang*, Y. Ku, X. Liu, and Y. Li, "A quadrant detector based laser alignment method with higher sensitivity," Optik - International Journal for Light and Electron Optics 123:2238– 2240 (2012).
[13] T. Wang, C. Kuang*, X. Hao, and X. Liu, "Sharper focal spot below λ/4 of azimuthally polarized illumination phase-encoded by the binary 0/π phase plate," Optik - International Journal for Light and Electron Optics 123: 2179– 2182 (2012).
[14] H. Xiang, K. Cuifang*, L. Yanghui, and L. Xu, "A method for extending depth of focus in STED nanolithography," Journal of Optics 14, 045702 (2012).
[15] 郝翔, 匡翠方*, 李旸晖,刘旭, "可逆饱和光转移过程的荧光超分辨显微术," 激光与光电子学进展 49, 30005-30001 (2012).
[16] D. Luo, C. Kuang*, and X. Liu, "Fiber-based chromatic confocal microscope with Gaussian fitting method," Optics & Laser Technology 44, 788-793 (2012).
[17] Y. Liu, C. Kuang*, and Y. Ku, "Small angle measurement method based on the total internal multi-reflection," Optics & Laser Technology 44, 1346-1350 (2012).
[18] C. Kuang*, Y. Liu, X. Hao, D. Luo, and X. Liu, "Creating attoliter detection volume by microsphere photonic nanojet and fluorescence depletion," Optics Communications 285, 402-406 (2012).


2011
[1] X. Yi, K. Cuifang*, H. Xiang, G. Zhaotai, and L. Xu, "A method for generating a three-dimensional dark spot using a radially polarized beam," Journal of Optics 13, 125704 (2011).
[2] Y. Liu, C. F. Kuang, and Z. H. Ding*, "Strong confinement of two-photon excitation field by photonic nanojet with radial polarization illumination," Optics Communications 284, 4824-4827 (2011).
[3] C. Kuang, R. Qiao, and G. Wang, "Ultrafast measurement of transient electroosmotic flow in microfluidics," Microfluidics and Nanofluidics 11, 353-358 (2011).
[4] CF Kuang*, X. Hao, and T.-T. Wang, "Laser collimation method based on differential compensating beam drift," Guangdianzi Jiguang/Journal of Optoelectronics Laser (光电子激光)22, 597-599 (2011).
[5] 库玉龙;匡翠方*;王婷婷;李海峰;刘旭, "基于全内反射的光束准直性检测新方法," 光电子激光 22, 3 (2011).
[6] X. Hao, C. Kuang, X. Liu*, H. Zhang, and Y. Li, "Microsphere based microscope with optical super-resolution capability," Applied Physics Letters 99, 203102-203103 (2011).
[7] 郝翔, 匡翠方*,王婷婷,刘旭. 受激发射损耗显微技术中0/π圆形相位板参数优化[J]. 光学学报
a) 2011, 31(3): 0318001
[8] CF Kuang,* Xiang Hao, Xu Liu, Tingting Wang and Yulong Ku “Formation of Sub-Half-Wavelength Focal Spot with Ultra Long Depth of Focus” Optics communications, 284,1766–1769, (2011) .
[9] Tingting Wang,CF Kuang *,Xiang Hao and Xu Liu . “Subwavelength focusing by a microsphere array” Journal of Optics, 13, 035702, (2011)
.
 

2010
[1] Tingting Wang, CF Kuang*, Xiang Hao, and Xu Liu. ”Experimental verification of the far-field subwavelength focusing with multiple concentric nanorings”. Appl. Phys. Lett. 97, 231105, (2010).
[2] CF Kuang; Guiren Wang. Far-field nanoscopic velocimeter for nanofluidics,Lab-on-a-chip 10, 240. (2010). 
[3] XA. Hao, CF Kuang*, T. T. Wang, and X. Liu, "Phase encoding for sharper focus of the azimuthally polarized beam," Optics Letters ,35, 3928-3930, (2010).
[4] XA. Hao, CF Kuang*, T. T. Wang, and X. Liu, "Effects of polarization on the de-excitation dark focal spot in STED microscopy,"Journal of Optics, 12,115707, (2010).
[5] CF Kuang, Wei Zhao, and Guiren Wang. “Far-field optical nanoscopy based on continuous wave laser stimulated emission depletion”Review of Scientific Instruments. 81, 053709 , (2010).
[6] CF. Kuang*, M. Y. Ali, X. A. Hao, T. T. Wang, and X. Liu, "Superresolution confocal technology for displacement measurements based on total internal reflection," Review of Scientific Instruments, 81, 103702. (2010).
[7] M. Yakut Ali, CF Kuang, Jamil Khan, and Guiren Wang, "A dynamic piezoelectric micropumping phenomenon," Microfluidics and Nanofluidics 9 (2), 385-396,(2010).


Before 2009
[1] CF Kuang; Zhao, W; Yang, F. and Wang, G.. Study of the Rise Time in Electroosmotic Flow within a Microcapillary, Analytical Chemistry, 81 (16):6590–6595, (2009).
[2] CF Kuang; Zhao, W; Yang, F. and Wang, G.. Measuring flow velocity distribution in microchannels using molecular tracers,Microfluidics and nanofludiics, 7(4): 509-517, (2009) .
[3] Feng, Q.; Zhang, B.; Kuang, C., Four degree-of-freedom geometric error measurement system with common-path compensation for laser beam drift. International Journal of Precision Engineering and Manufacturing 2008, 9 (4), 26-31.
[4] Z. Zhang, Q. Feng, Z. Gao, C. Kuang, C. Fei, Z. Li, and J. Ding, "A new laser displacement sensor based on triangulation for gauge real-time measurement," Optics & Laser Technology 40, 252-255 (2008).
[5] Kuang, C.; Hong, E.; Ni, J., A high-precision five-degree-of-freedom measurement system based on laser collimator and interferometry techniques. Review of Scientific Instruments 2007, 78 (9).
[6] Kuang, C.; Hong, E.; Feng, Q.; Zhang, B.; Zhang, Z., A novel method to enhance the sensitivity for two-degrees-of-freedom straightness measurement. Measurement Science & Technology 2007, 18 (12), 3795-3800.
[7] Kuang, C.; Hong, E.; Feng, Q., High-accuracy method for measuring two-dimensional angles of a linear guideway. Optical Engineering2007, 46 (5).
[8] Kuang, C. F.; Feng, Q. B.; Zhang, B.; Liu, B.; Chen, S. Q.; Zhang, Z. F., A four-degree-of-freedom laser measurement system (FDMS) using a single-mode fiber-coupled laser module. Sensors and Actuators a-Physical 2005, 125 (1), 100-108.
[9] Q. B. Feng, B. Zhang, and C. F. Kuang, "A straightness measurement system using a single-mode fiber-coupled laser module,"Optics and Laser Technology 36, 279-283 (2004).

 

 

Books published

[1] Y. Fang, Y. Huang, S. Liu, C. Kuang, X. Liu, Superresolution Optical Microscopy, 2017.
[2] C. Kuang, Y. Fang, Y. Wang, X. Liu, Confocal microscopy : principles, techniques, and applications Chapter 2, New York Nova Publishers, 2017



Partial conference papers published

[1]R. Zhou, P.T.C. So, Z. Yaqoob, D. Jin, P. Hosseini, C. Kuang, V.R. Singh, Y.H. Kim, R.R. Dasari, Solving the inverse scattering problem in reflection-mode dynamic speckle-field phase microscopy (Conference Presentation),  SPIE BiOS2017, pp. 100741C.
[2]Y. Fang, C. Kuang, Q. Liu, X. Liu, ''Saturated pattern-illuminated Fourier ptychography microscopy,'' Imaging Systems and Applications2016.
[3]Cheng Zheng, poster presentation, "A comprehensive description of diffraction phase microscopy". 2016 International Conference on Innovative Optical Health Sciences (IOHS16). 2016.10.10-12 
[4]Chongzhi Yu, oral presentation,"parallel detecting super-resolution microscopy using correlation based image restoration". 2016 International Conference on Laser Applications in Life Sciences(LALS2016).2016.10.14
[5]Yue Fang, Cuifang Kuang, Peng Xiu, Qiulan Liu, Xu Liu. oral presentation,"Saturated pattern-illuminated Fourier ptychography microscopy". Imaging and Applied Optics: OSA Optics & Photonics Congress.2016.07.27
[6]Wensheng Wang, Yifan Wang, Cuifang Kuang, Xu Liu. oral presentation, "Dual-color super-resolution imaging by fluoresence emission difference microscopy". Imaging and Applied Optics: OSA Optics & Photonics Congress.2016.07.27 
[7]Peng Xiu, Yue Fang, Yifan Wang,Jiannan Fan, Cuifang Kuang, Yingke, Xu, Xu Liu,oral presentation,'' High resolution topographic phase microscopy''Imaging and Applied Optics: OSA Optics & Photonics Congress.2016.07.27
[8]Guangyuan Zhao,Cuifang Kuang,Cheng Zheng,Xu Liu.poster presentation."Super Resolution of Fluorescence Microscopy via Saturated Excitation State Competition".Imaging and Applied Optics: OSA Optics & Photonics Congress.2016.07.27
[9]Dazhao Zhu,Cuifang Kuang,Youhua Chen,Xu Liu,poster presentation,"Demonstration of Multi-mode Parallel Detection Microscopy",Imaging and Applied Optics: OSA Optics & Photonics Congress.2016.07.27
[10]Yichen Li, Shaocong Liu,Shiyi Sun, Cuifang Kuang, Xu Liu,poster presentation,"Imaging Scanning Fluorescence Emission Difference Microscopy Based on a Detector Array",Imaging and Applied Optics: OSA Optics & Photonics Congress.2016.07.27
[11]P. Xiu, Y. Fang, Y. Wang, C. Kuang, X. Liu. oral presentation, ”Structured illumination fluorescence fourier ptychographic microscopy”, Focus On Microscopy, 2015.3.29  
[12]Z. Rong, C. Kuang, Y. Fang & X. Liu ,“Super-resolution microscopy based on fluorescence emission difference using cylindrical vector beams”, Focus On Microscopy, 2015.3.29 
[13]
D. Zhu, C. Kuang, X. Liu, “Wide Field fluorescence emission difference super-resolution microscopy with optical lattices scanning”, Focus On Microscopy, 2015.3.29 
[14]Y. Wang, Y. Ma, C. Kuang, X. Liu, “Building a multifunctional microscope with two super-resolution modes: STED and FED”, Focus on Microscopy, 2015.3.29
[15]Y.Fang, oral presentation, “Methods for super-resolution imaging based on PSF engineering”, 2014 Photonics Asia, 2014.10.12
 
[16]P.Xiu, oral presentation, ”Light field Reconstruction refractive index microscopy” , optics within life science, 2014.6.11
[17]P.Xiu, oral presentation,”diffraction tomographic phase microscopy”, 2014 Photonics Asia, 2014.10.11
[18]P.Xiu, oral presentation,”Controllable Tomographic Phase Microscopy(CTPM) System”,west lake photonics forum,2014.10.31
[19]Y.Wang, oral presentation ,”A novel aligning method for stimulated emission depletion microscopy using fluorescence lifetime distribution”,2014.2.2
[20]S. Li, C.Kuang, Y.Wang, X. Hao, P. Xiu, Y. Xu, X. Liu, High speed optical nanoscopy by stimulated emission depletion (STED) with galvo mirrors, 2013, pp. 89110D-89110D-89118.
[21]Jianhong Ge ; Yixin Wang ; Cuifang Kuang ; Shin-Shian Lee ; Nirmal Mazumder ; Fu-Jen Kao;Fluorescence lifetime imaging with pulsed diode laser enabled stimulated emission. Proc. SPIE 8588, Multiphoton Microscopy in the Biomedical Sciences XIII, 858832 (February 22, 2013)
[22]X. Liu; X. Hao ;and C. Kuang. Far-field Optical Nanoscopy via Visible Light,  in Nanophotonics, Nanoelectronics and Nanosensor, Optical Society of America: 2013.
[23]Kuang, C*.; Wang, Y.; Gu, Z.; Li, S.; Liu, X. In Lateral resolution enhancement in confocal microscopy with a higher SNR, Optical Society of America: 2012; p AF4B.19.
[24]Gu, Z.; Kuang, C*.; Li, S.; Xue, Y.; Zheng, Z.; Liu, X. In Super-resolution Fluorescence Lifetime Imaging, Optical Society of America: 2012; p ATh2E.4.
[25]Hao, X.; Liu, X*.; Kuang, C.; Tong, L. In Mirofiber based far-field optical super-resolution system, Optical Society of America: 2012; p FM3D.2.
[26]C. Kuang, G. Wang, and Asme, Fast Nanoscopic Velocimetry for Micro/Nanofluidics, Mnhmt2009, Vol 1 (2010), pp. 329-334.
[27]M. Y. Ali, C. Kuang, J. Khan, G. Wang, and Asme, A Piezoelectric Micropumping Device, Mnhmt2009, Vol 1 (2010), pp. 319-327.
[28]Ke Liu, Yanqiu Li, Jingfeng Liu and Cuifang Kuang, "Computer aided alignment of 20X Schwarzschild projection optics", Proc. SPIE 7130, 713042 (2008); doi:10.1117/12.819705.
[29]Kuang, C. F.; Feng, Q. B.; Zhang, B.; Zhang, Z. F.; Chen, S. Q., Measurement method of the roll angle - art. no. 61502F. In 2nd International Symposium on Advanced Optical Manufacturing and Testing Technologies: Optical Test and Measurement Technology and Equipment, Pts 1 and 2, Hou, X. Y. J. W. J. C. H. S., Ed. 2006; Vol. 6150, pp F1502-F1502.
[30]C. F. Kuang, Q. B. Feng, B. Zhang, Z. F. Zhang, and S. Q. Chen, Simultaneous measuring method of linear guide geometric errors in four-degrees of freedom, ISTM/2005: 6th International Symposium on Test and Measurement, Vols 1-9, Conference Proceedings (2005), pp. 216-218.
[31]Z. F. Zhang, Q. B. Feng, S. Q. Chen, and C. F. Kuang, Theoretical analysis of the gauge laser sensor and several design parameters, ISTM/2005: 6th International Symposium on Test and Measurement, Vols 1-9, Conference Proceedings (2005), pp. 3502-3504.
[32]J. Y. Feng, Q. B. Feng, and C. F. Kuang, Status of laser displacement measurement techniques based on triangulation, Istm/2003: 5th International Symposium on Test and Measurement, Vols 1-6, Conference Proceedings (2003), pp. 3658-3661.